Difference between revisions of "FC Analysis"

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2. Pulse# = ReadOut# = Entry# = Event#  
 
2. Pulse# = ReadOut# = Entry# = Event#  
  
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<br>[[File:FC_data_23.png]] <br>
 +
    [[File:FC_plot_2_4.png]]<br>
  
<br>[[File:FC_data_23.png]]<br>
+
<br><br>Some examples of ADC mean value distribution. Here are:<br>
[[File:FC_plot_2_4.png]]<br><br>
+
1. x axis: ADC mean value for one pulse<br>
Some examples of ADC mean value distribution. Here are:<br>
 
1. x axis: ADC mean value for one pulse (need to be normalized by factor (1/1000))<br>
 
 
2. y axis: number of pulse w/ that ADC mean value<br>
 
2. y axis: number of pulse w/ that ADC mean value<br>
[[File:1477_1.png]] [[File:1473_1.png]]<br>
+
[[File:1477.png]] [[File:1473.png]]<br>
[[File:1465_1.png]]<br>
+
[[File:1461.png]] [[File:1465.png]]<br>
  
 
Below is the plot of the charge in Faraday cup (pC) as a function of magnet current (vertical axis, A) (basically magnetic field)  and ADC (horizontal axis).
 
Below is the plot of the charge in Faraday cup (pC) as a function of magnet current (vertical axis, A) (basically magnetic field)  and ADC (horizontal axis).

Revision as of 06:12, 28 March 2010

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For each beam pulse:

[math] ADC_{avg}^{pulse}=\frac{\sum_{i=1}^{16}{ADC_{i}*i}}{\sum_{i=1}^{16}{ADC_{i}}};[/math]

For distribution over all beam pulses:

[math] ADC_{ave}=\frac{\sum_{i=1}^{pulses}{ADC_{avg}^{pulse}}}{pulses};[/math]
[math] ADC_{sigma}={ \sqrt{\frac{1}{pulses}\sum_{i=1}^{pulses}{\left(ADC_{avg}^{pulse} - ADC_{avg}\right)^{2}}}};[/math]


Here is:
1. ADC# = bridge#
2. Pulse# = ReadOut# = Entry# = Event#


FC data 23.png

   FC plot 2 4.png



Some examples of ADC mean value distribution. Here are:
1. x axis: ADC mean value for one pulse
2. y axis: number of pulse w/ that ADC mean value
1477.png 1473.png
1461.png 1465.png

Below is the plot of the charge in Faraday cup (pC) as a function of magnet current (vertical axis, A) (basically magnetic field) and ADC (horizontal axis).

Far.jpg

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