Difference between revisions of "CDC transfer func attempt"

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Garfield uses uA for signals, but I want to see the resulting histograms in adc units, for direct comparison with cosmics data.  So... I need to convert my impulse response to input of 1 uA, ie use (1 / 17.2) * fitted function above as the transfer function.??  (Fitted function already has current gain x 89).
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Garfield uses uA for signals, but I want to see the resulting histograms in adc units, for direct comparison with cosmics data.  So... I need to convert my impulse response to input of 1 uA, ie use (1 / 17.2) * fitted function above as the transfer function.??  (Fitted function already includes current gain x 89).
  
 
The remaining gain factor needed to match garfield adc data to real life data is the gas gain.
 
The remaining gain factor needed to match garfield adc data to real life data is the gas gain.

Revision as of 10:35, 16 April 2014

Setup
Setup (GS 4001)

Circuit

Charge injection circuit from Fernando's GlueX-doc-1364

Actual component values used were... 51.1 Ohms, 908 Ohms and 2pF.

The aim is to inject a charge impulse into the electronics chain and measure its response.

Early results

100mV leading edge of sq wave step up (yellow) and trigger from pulser (purple) - average
output of shaper - average
output of shaper - expanded time scale
output of fadc - average
output of fadc - expanded time scale

Final results

Borrowed Phillips 5771 (no attenuators needed)

pulser output - single
pulser output - average
pulser output - average


output of shaper - single
output of shaper - average
output of shaper - average
fADC data
upsampled fADC data

Fitted function

mean of upsampled fADC data
fitted function
blue=refit with powers fixed, pink= pars 137, 118, 8, 91.4, 9

Beware typos in filenames, this was run #31941!


Input charge: 2 pF x 103 mV = 206 fC

Input current: divide by 12ns peaking time of preamp: 206 fC / 12 ns = 17.2 uA


Peak value of output data is 635 adc_units ~ 635 * 495 mV / 4096 = 76.7 mV

Electronics gain is 76.7 mV / 206 fC = 0.37 mV/fC

(Gain of preamp alone measured earlier (before modifications) by FJB as 0.57 mV/fC)


Convert to current using 50 Ohm resistance: 76.7 mV / 50 Ohm = 1.53 mA


Current gain is 1.53 mA / 17.2 uA = 89.0


Integrated value of output data is 19.03 adc_units.us ~ 19.03 * 495 mV / 4096 = 2.30 mV.us

Convert to charge using 50 Ohm resistance: 2.3 mV.us / 50 Ohm = 0.046 mA.us = 0.046 nC = 46 pC


Charge gain is 46 pC / 206 fC = 223


To convert histograms of summed ADC data (with 8ns sample time) to charge, multiply by 8 ns * 46 pC / 19.03 us = 19.3 fC


Garfield uses uA for signals, but I want to see the resulting histograms in adc units, for direct comparison with cosmics data. So... I need to convert my impulse response to input of 1 uA, ie use (1 / 17.2) * fitted function above as the transfer function.?? (Fitted function already includes current gain x 89).

The remaining gain factor needed to match garfield adc data to real life data is the gas gain.

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