111 lines
3.5 KiB
Python
Executable File
111 lines
3.5 KiB
Python
Executable File
"""
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Parameters:
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args = [prefix ]
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"""
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import ch.psi.pshell.epics.ControlledVariable as ControlledVariable
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latency = 0.05
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#prefix = args[0]
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#start = caget("PSHELL:scanstart")
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#stop = caget("PSHELL:scanstop")
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#step = caget("PSHELL:scanstep")
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prefix = "MINSB03-RSYS"
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start = -179.0
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stop = 180.0
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step = 10.0
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print "Prefix = ", prefix
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print "Start = ", start
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print "Stop = ", stop
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print "Step = ", step
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#rf_phase_setpoint = Channel(prefix + ":SET-VSUM-PHASE")
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#rf_phase_readback = Channel(prefix + ":GET-VSUM-PHASE")
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#rf_ampl_readback = Channel(prefix + ":GET-VSUM-AMPLT")
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#rf_phase_setpoint = create_channel_device(prefix + ":SET-VSUM-PHASE", type = 'd', deviceName='Phase Setpoint')
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#rf_phase_readback = create_channel_device(prefix + ":GET-VSUM-PHASE", type = 'd', deviceName='Phase Readback')
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rf_phase_var = ControlledVariable("Phase", prefix + ":SET-VSUM-PHASE", prefix + ":GET-VSUM-PHASE")
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(rf_phase_var.config.minValue, rf_phase_var.config.maxValue)= (-180.0, 180.0)
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rf_phase_var.config.resolution = 0.001
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rf_phase_var.initialize()
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rf_ampl_readback = create_channel_device(prefix + ":GET-VSUM-AMPLT", type = 'd', deviceName='Amplitude Readback')
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#add_device (rf_phase_var, True)
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#add_device (rf_ampl_readback, True)
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"""
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scan_pos.set([])
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scan_val.set([])
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def after(rec):
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scan_val.append(rec.values[0])
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scan_pos.append(rec.positions[0])
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"""
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#TODO: this is workaround to CAS not supporting dynamic arrays
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def after(rec):
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global arrpos,arrval
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#print rec.index
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arrval = scan_val.take().tolist()
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arrpos = scan_pos.take().tolist()
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arrval[rec.index] = rec.values[0]
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arrpos[rec.index] = rec.positions[0]
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arrval[rec.index:] = [rec.values[0]] * (len(arrval) -rec.index)
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arrpos[rec.index:] = [rec.positions[0]] * (len(arrpos) -rec.index)
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scan_val.set(arrval)
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scan_pos.set(arrpos)
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try:
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#r = lscan(pos, [rf_phase_readback, rf_ampl_readback, sim], start, stop, step , latency=0.2, after_read = after)
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#r = lscan(rf_phase_setpoint, [rf_phase_readback, rf_ampl_readback, sim], start, stop, step , latency=0.5, after_read = after)
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sim.step = step
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r = lscan(rf_phase_var, [rf_ampl_readback, sim], start, stop, step , latency=latency, after_read = after)
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#To sample a0
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f = r.getReadable(1) # r.getReadable(2)
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f_ampl = r.getReadable(0) # r.getReadable(1)
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xdata = r.getPositions(0) # r.getReadable(0)
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#plot(r.getReadable(1), xdata = r.getPositions(0), title = "data")
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phase_fit_max = None
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try:
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(amplitude, angular_frequency, phase, phase_fit_max) = hfit(f , xdata = xdata)
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except:
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raise Exception("Fit failure")
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start,end = min(xdata), max(xdata)
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if not (start <=phase_fit_max <=end):
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raise Exception("Fit maximum outside scan range")
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rf_phase_var.write(phase_fit_max)
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time.sleep(latency)
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a0 = rf_ampl_readback.read()
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power = 1.0 #TODO
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finally:
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#rf_phase_setpoint.close()
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#rf_phase_readback.close()
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rf_phase_var.close()
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rf_ampl_readback.close()
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print ("------------------------------------")
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print ("Valid fit")
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energy_gain = amplitude
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phase_offset = - phase_fit_max
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amplitude_scale = energy_gain / a0
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power_scale = power / math.pow(a0,2)
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#caput(prefix + ":SET-VSUM-PHASE-OFFSET", phase_offset)
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#caput(prefix + ":SET-VSUM-AMPLT-SCALE", amplitude_scale)
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#caput(prefix + ":SET-VOLT-POWER-SCALE", power_scale)
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#set_return(r.print())
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set_return("Energy Gain: " + str(energy_gain) + "\nPhase Offset: " + str(phase_offset) + "\nAmplitude Scale: " + str(amplitude_scale) + "\nPower Scale: "+ str(power_scale))
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