Trace collected at: 2010-11-05 14:37:11.937000 ---------------------------------------------------------------------- ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[46]: if(connector): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[47]: print >> log, "User specified connector J%d. This will test channels %s" % (connector, str(channel_map[connector])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[54]: if(not fbox): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[60]: if(debug): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[63]: freqs = [1, 2, 5, 10, 20, 50, ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[70]: results = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[73]: msg = "Set FBOXes to %s" % (fbox) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[74]: print >> log, msg ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[75]: Gseos.MessageBox(msg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[80]: matrix_map = {'vsphere1': 22, ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[106]: ds.set_ampl(2.5, vpp=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[109]: scope_config_num = 8 ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[110]: print >> log, "Recalling scope saved config %d" % (scope_config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[111]: scope.gpib_cmd('recall:setup %d' % (scope_config_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[114]: print >> log, "Scope measurement parameters:" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[115]: meas_str = scope.gpib_cmd('measurement:MEAS1?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[116]: print >> log, "MEAS1: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[117]: meas_str = scope.gpib_cmd('measurement:MEAS2?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[118]: print >> log, "MEAS2: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[119]: meas_str = scope.gpib_cmd('measurement:MEAS3?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[120]: print >> log, "MEAS3: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[124]: results[chan_num] = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[165]: print >> log, "ERROR: Scope couldn't detect amplitude on MEAS2" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[124]: results[chan_num] = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[179]: outfilename = os.path.join(settings.full_output_path, '%s_freq_response_chan%02d.csv' % (settings.relative_output_path, chan_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[181]: if(os.path.exists(outfilename)): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[193]: f = open(outfilename, 'wb') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[194]: now = str(datetime.datetime.now()) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[195]: line = 'AC Frequency Response - Channel %02d\n%s\n' % (chan_num, now) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[196]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[197]: line = 'Frequency (Hz),SENSOR Amp (Vpp),VSPHERE Amp,VSPHERE Phase (deg) wrt SENSOR,SENSOR Amp (Vpp),USHER Amp,USHER Phase wrt SENSOR,SENSOR Amp (Vpp),GUARD Amp,GUARD Phase wrt SENSOR,SENSOR Amp,EMFISIS Amp,EMFISIS Phase wrt SENSOR\n' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[198]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[204]: f.close() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[205]: print >> log, "Wrote %s" % (outfilename) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[179]: outfilename = os.path.join(settings.full_output_path, '%s_freq_response_chan%02d.csv' % (settings.relative_output_path, chan_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[181]: if(os.path.exists(outfilename)): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[193]: f = open(outfilename, 'wb') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[194]: now = str(datetime.datetime.now()) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[195]: line = 'AC Frequency Response - Channel %02d\n%s\n' % (chan_num, now) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[196]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[197]: line = 'Frequency (Hz),SENSOR Amp (Vpp),VSPHERE Amp,VSPHERE Phase (deg) wrt SENSOR,SENSOR Amp (Vpp),USHER Amp,USHER Phase wrt SENSOR,SENSOR Amp (Vpp),GUARD Amp,GUARD Phase wrt SENSOR,SENSOR Amp,EMFISIS Amp,EMFISIS Phase wrt SENSOR\n' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[198]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[204]: f.close() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[205]: print >> log, "Wrote %s" % (outfilename) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[207]: print >> log, "Resetting switch matrix and signal generator." ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[208]: ds.set_ampl(0) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[209]: time.sleep(1) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[210]: matrix.reset('ALL') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[211]: time.sleep(1) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[212]: scope.force_trig() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[214]: return True Trace collected at: 2010-11-05 14:54:41.843000 ---------------------------------------------------------------------- ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[46]: if(connector): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[47]: print >> log, "User specified connector J%d. This will test channels %s" % (connector, str(channel_map[connector])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[54]: if(not fbox): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[60]: if(debug): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[63]: freqs = [1, 2, 5, 10, 20, 50, ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[70]: results = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[73]: msg = "Set FBOXes to %s" % (fbox) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[74]: print >> log, msg ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[75]: Gseos.MessageBox(msg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[80]: matrix_map = {'vsphere1': 22, ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[106]: ds.set_ampl(2.5, vpp=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[109]: scope_config_num = 8 ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[110]: print >> log, "Recalling scope saved config %d" % (scope_config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[111]: scope.gpib_cmd('recall:setup %d' % (scope_config_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[114]: print >> log, "Scope measurement parameters:" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[115]: meas_str = scope.gpib_cmd('measurement:MEAS1?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[116]: print >> log, "MEAS1: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[117]: meas_str = scope.gpib_cmd('measurement:MEAS2?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[118]: print >> log, "MEAS2: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[119]: meas_str = scope.gpib_cmd('measurement:MEAS3?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[120]: print >> log, "MEAS3: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[124]: results[chan_num] = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[124]: results[chan_num] = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[179]: outfilename = os.path.join(settings.full_output_path, '%s_freq_response_chan%02d.csv' % (settings.relative_output_path, chan_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[181]: if(os.path.exists(outfilename)): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[183]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[184]: f = open(outfilename, 'ab') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[204]: f.close() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[205]: print >> log, "Wrote %s" % (outfilename) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[179]: outfilename = os.path.join(settings.full_output_path, '%s_freq_response_chan%02d.csv' % (settings.relative_output_path, chan_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[181]: if(os.path.exists(outfilename)): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[183]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[184]: f = open(outfilename, 'ab') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[204]: f.close() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[205]: print >> log, "Wrote %s" % (outfilename) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[207]: print >> log, "Resetting switch matrix and signal generator." ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[208]: ds.set_ampl(0) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[209]: time.sleep(1) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[210]: matrix.reset('ALL') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[211]: time.sleep(1) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[212]: scope.force_trig() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[214]: return True Trace collected at: 2010-11-05 15:13:27.109000 ---------------------------------------------------------------------- ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[46]: if(connector): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[47]: print >> log, "User specified connector J%d. This will test channels %s" % (connector, str(channel_map[connector])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[54]: if(not fbox): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[60]: if(debug): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[63]: freqs = [1, 2, 5, 10, 20, 50, ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[70]: results = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[73]: msg = "Set FBOXes to %s" % (fbox) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[74]: print >> log, msg ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[75]: Gseos.MessageBox(msg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[80]: matrix_map = {'vsphere1': 22, ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[106]: ds.set_ampl(2.5, vpp=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[109]: scope_config_num = 8 ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[110]: print >> log, "Recalling scope saved config %d" % (scope_config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[111]: scope.gpib_cmd('recall:setup %d' % (scope_config_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[114]: print >> log, "Scope measurement parameters:" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[115]: meas_str = scope.gpib_cmd('measurement:MEAS1?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[116]: print >> log, "MEAS1: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[117]: meas_str = scope.gpib_cmd('measurement:MEAS2?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[118]: print >> log, "MEAS2: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[119]: meas_str = scope.gpib_cmd('measurement:MEAS3?').strip() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[120]: print >> log, "MEAS3: %s" % (meas_str) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[124]: results[chan_num] = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[124]: results[chan_num] = {} ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[157]: except KeyError: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[158]: results[chan_num][freq] = [ampl] ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[175]: print >> log, "ERROR: Scope couldn't detect phase or some other measurement was configured on MEAS1" ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[127]: full_chan_name = '%s%d' % (chan_name, chan_num) # e.g. 'usher4' ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[129]: matrix_config(matrix_map[full_chan_name]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[486]: matrix.reset(factory=True) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[488]: print >> log, "Invoking switch matrix configuration %d" % (config_num) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[492]: config_map = {0: [], ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[525]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[526]: switches = config_map[config_num] ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[531]: print >> log, "Closing matrix switch %d" % (switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[532]: matrix.close(switch) ../../GSEOS_scripts/BEB/science_calibration\beb_scical.py[530]: for switch in switches: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[130]: time.sleep(3) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[134]: ds.set_freq(freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[135]: secdiv = 1.0/freq ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[137]: print >> log, "Measuring %s @ %d Hz" % (full_chan_name, freq) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[146]: scope.gpib_cmd('horizontal:main:scale %s' % (str(secdiv))) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[147]: time.sleep(3+10*secdiv) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[150]: ampl = float(scope.gpib_cmd('measurement:MEAS2:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[151]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[152]: print >> log, "Amplitude (SENSOR%d): %.4f V" % (chan_num, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[155]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[156]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[161]: ampl = float(scope.gpib_cmd('measurement:MEAS3:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[162]: if(ampl < 1000): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[163]: print >> log, "Amplitude (%s): %.4f V" % (full_chan_name, ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[166]: results[chan_num][freq].append(ampl) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[170]: phase_shift_in_deg = float(scope.gpib_cmd('measurement:MEAS1:data?').strip().split(',')[0]) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[171]: results[chan_num][freq].append(phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[172]: if(phase_shift_in_deg <= 360): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[173]: print >> log, "Phase shift: %.3f deg" % (phase_shift_in_deg) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[133]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[126]: for chan_name in ['vsphere', 'usher', 'guard', 'emfisis']: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[122]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[179]: outfilename = os.path.join(settings.full_output_path, '%s_freq_response_chan%02d.csv' % (settings.relative_output_path, chan_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[181]: if(os.path.exists(outfilename)): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[183]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[184]: f = open(outfilename, 'ab') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[204]: f.close() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[205]: print >> log, "Wrote %s" % (outfilename) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[179]: outfilename = os.path.join(settings.full_output_path, '%s_freq_response_chan%02d.csv' % (settings.relative_output_path, chan_num)) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[181]: if(os.path.exists(outfilename)): ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[183]: try: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[184]: f = open(outfilename, 'ab') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[201]: value_string = ','.join(map(lambda x: str(x), results[chan_num][freq])) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[202]: line = '%d,%s\n' % (freq, value_string) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[203]: f.write(line) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[200]: for freq in freqs: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[204]: f.close() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[205]: print >> log, "Wrote %s" % (outfilename) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[178]: for chan_num in channel_map[connector]: ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[207]: print >> log, "Resetting switch matrix and signal generator." ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[208]: ds.set_ampl(0) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[209]: time.sleep(1) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[210]: matrix.reset('ALL') ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[211]: time.sleep(1) ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[212]: scope.force_trig() ../../GSEOS_scripts/BEB/science_calibration\beb_scical_ac.py[214]: return True