}
# TODO: Adjust aqcuisition parameters here
-aquire = { "DAC_Sweep" : "4000",#"0.0 + 10.0*int(step)", # DAC Sweep value (t is in STEPS, not seconds!)
+aquire = { "DAC_Sweep" : "0.0 + 50.0*int(step)", # DAC Sweep value (t is in STEPS, not seconds!)
"ADC_Averages" : 200,
#"ADC_Vi" : 5, # ADC channel to read back Vi (set by DAC) through
#"ADC_Is" : 4, # ADC channel to read back Is through
#Using an ordered dictionary, so results will be determined (or prompted for) in this order.
# Put things that are being changed a lot near the top of the list.
parameters = odict.odict([
- ("Chamber Pressure" , None), # Chamber pressure now automatically determined
+ #("Chamber Pressure" , None), # Chamber pressure now automatically determined
("Venault Voltage" , None),
("Title" , None),
("Comment" , None),
# Experiment
# TODO: Modify data to record here
sweep = 1
- for i in range(0,5):
- #while True:
+ #for i in range(0,5):
+ while True:
os.system("mkdir -p " + getDate())
record_data([5], getDate()+"/"+str(getTime())+".dat", None, 4001)
sweep += 1
data[len(data)-1].append(adc[2])
out.write("\n")
-
- gnuplot.plot(Gnuplot.Data(data, title="t = "+str(measure_time), with_="lp", using="1:3"))
+ #gnuplot("set yrange [0:1023]")
+ #gnuplot("set xrange [0:4000]")
+ gnuplot("set xlabel \"DAC (counts)\"")
+ gnuplot("set ylabel \"Sample Current (ADC counts)\"")
+ gnuplot.plot(Gnuplot.Data(data, title="t = "+str(measure_time), with_="lp", using="2:3"))
for out in output:
if out != sys.stdout:
log_close(out)