Proton Calorimetry/Equipment: Difference between revisions

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More details can be found on the [[/HV|Connecting HV to DAQ Laptop]] page.
More details can be found on the [[/HV|Connecting HV to DAQ Laptop]] page.


== LeCroy Scope Trace Conversion: Binary to ASCII ==
== [[/LeCroy|LeCroy Oscilloscope]] ==
Outdated description of analysis of LeCroy scope trace data can be found on the [[/LeCroy|LeCroy Oscilloscope]] page.


To convert .trc binary data to .txt data that is formatted similarly to the output files from a CAEN DT5751 digitiser:
This page needs to be updated with work completed in the 2018-2019 academic year.
 
# Copy contents of <code>/unix/pbt/aknoetze/ConversionScripts</code> to a new directory.
# Open <code>trc2txt.py</code> in a text editor.
## Change path to directory containing .trc data files by editing variable <code>dirpath</code>
## Change number of decimal points for each column by editing: <code>np.savetxt(..., fmt=‘...’,...)</code>
# Run <code>trc2txt.py</code>
 
Converted .txt files will be in the copied directory <code>NEWASCII</code>. These new files will possess the same file names as the original .txt files.
 
To concatenate the new data files together into one single file, while in the directory <code>NEWASCII</code>,type:
 
<pre>
cat *.txt > OutputFileName.txt
</pre>
 
 
== Working with LeCroy Scope Trace Files in ROOT using the LeCroyData Class ==
 
The LeCroyData class is defined in <code>SimpleLeCroyRoutines.C</code>, which can be found at <code>/unix/pbt/users/dwalker/LeCroy</code>.
The class is intended for use in interactive ROOT sessions, but can be used in compiled ROOT applets. Its public methods and their use are summarised below:
 
{| class="wikitable"
! style="width: 25%" | Method Signature
! style="width: 40%" | Notes
! Example
|-
| <code>LeCroyData::LeCroyData(std::string fileName);</code>
| Constructor for the LeCroyData class. The string fileName must be a fully qualified path from the current working directory to the LeCroy binary format file to be loaded.
| <code>
//Instantiating a new LeCroyData object
 
LeCroyData* lcd = new LeCroyData("../data/aug16/lecroy/C1Trace00000.trc");
</code>
|-
| <code>int LeCroyData::getAcqCount();</code>
| Returns the number of acquisitions recorded in the file.
| rowspan="2" | <code>
//Printing every trigger time in a LeCroy binary file
 
LeCroyData lcd("C1Trace00037.trc");
 
int n = lcd.getAcqCount();
 
for(int i = 0; i<n; i++){
 
std::cout.flush()<<lcd.getTriggerArray()[i]<<std::endl;
 
}
 
</code>
|-
| <code>double* LeCroyData::getTriggerArray();</code>
| Returns a C-style array containing the time in ns at which each acquisition in the file was triggered, relative to the first trigger.
|-
| <code>double* LeCroyData::getOffsetArray();</code>
| Returns a C-style array containing the time in ns between the start of each acquisition and the time of the trigger for that acquisition.
|
|-
| <code>int LeCroyData::getPointsPerAcq();</code>
| Returns the number of data points (voltage / time pairs) recorded in each acquisition in the file.
| rowspan="3" | <code>
//Plotting a single acquisition using ROOT's TGraph class
 
LeCroyData lcd("C1Trace00000.trc");
 
int acquisitionNumber = 0;
 
double* x = lcd.getAcqTime(acquisitionNumber);
 
double* y = lcd.getAcqWave(acquisitionNumber);
 
int n = lcd.getPointsPerAcq();
 
TGraph* gr = new TGraph(n, x, y);
 
gr->Draw();
</code>
|-
| <code>double* LeCroyData::getAcqWave(int segment);</code>
| Returns a C-style array of doubles. The array contains the voltages recorded by the scope in an acquisition with index "segment", which runs from zero to the number of acquisitions in the file.
|
|-
| <code>double* LeCroyData::getAcqTime(int segment);</code>
| Returns a C-style array of doubles. The array contains the time in ns of each data point in the acquisition indexed by "segment", relative to the trigger for that acquisition.
|
|-
| <code>string LeCroyData::getTimestamp();</code>
| Returns a string describing the timestamp for the file as a date and a clock time. This time corresponds to the first trigger in the file and takes the format "d/m/yyyy @ hh:mm:ss.ssss".
|
|-
| <code>double* LeCroyData::getSpectrum();</code>
| Returns a C-style array of doubles, where each entry is the ADC Counts calculated for an event.
|rowspan="2"|
<code>
//Create and display a histogram of the ADC Counts of pulses in a file
 
LeCroyData* lcd = new LeCroyData("C1Trace00000.trc");
 
TH1D* hist = new TH1D("hist", "LeCroyData Spectrum;ADC Counts;Number of Events", 350, 0, -1);
 
int n = lcd->getSpectrumSize();
 
double* s = lcd->getSpectrum();
 
for(int i = 0; i<n; i++){ hist->Fill(s[i]); }
 
hist->Draw();
</code>
|-
| <code>double* LeCroyData::getSpectrumSize();</code>
| Returns the number of entries in <code>LeCroyData::getSpectrum()</code> (equal to the number of entries in <code>LeCroyData::getSpectrumTime()</code>) as an integer.
|
|-
| <code>double* LeCroyData::getSpectrumTime();</code>
| Returns a C-style array of doubles, where each entry is the time in ns at which an event recorded in the spectrum occurred, with respect to the first trigger time in the file.
|
|}
 
 
Additional methods are being added to handle the generation of spectra and improve access to timing data.


== Manuals ==
== Manuals ==

Revision as of 14:22, 8 September 2020

This page contains information on the various pieces of experimental equipment that form the Proton Calorimetry detector setup.

ISDI CMOS Sensor

The ISDI 1510-100 15x10cm CMOS pixel sensor allows images of the scintillator detector stack light output to be recorded.

More details can be found on the ISDI CMOS Sensor page.

Caen Detector Emulator

The Caen DT5800D Detector Emulator provides the capability for emulating the output of an arbitrary detector system.

More details can be found on the Caen Detector Emulator page.

Nikon D70 DSLR

A Nikon D70 DSLR was borrowed from Adam Gibson in Medical Physics to allow remote acquisition of scintillator images.

More details can be found on the Nikon D70 DSLR page.

TI DDC1128 Evaluation Module

The DDC1128EVM provides a platform for evaluating the DDC1128 charge digitizing A/D converters. A PC interface board and two DDC1128 devices are included along with software that makes analysis and testing of these devices manageable.

More details can be found on the TI DDC1128 Evaluation Module page.

Zybo Z7 and DDC232

More details can be found on the Zybo Z7 and DDC232 page.

Remote Desktop Access

More details can be found on the Remote Desktop Access page.

Connecting HV to DAQ Laptop

More details can be found on the Connecting HV to DAQ Laptop page.

LeCroy Oscilloscope

Outdated description of analysis of LeCroy scope trace data can be found on the LeCroy Oscilloscope page.

This page needs to be updated with work completed in the 2018-2019 academic year.

Manuals

Manuals for relevant detector hardware.

WaveCatcher

WaveCatcherFamily_V1.2.pdf
Full description of the WaveCatcher Family hardware with paths to Control & Readout software and libraries. Covers the 2-channel and 8-channel WaveCatcher modules, the 16-Channel WaveCatcher board and module, and all the options of the 64-Channel WaveCatcher Crate (16, 32, 48 or 64 channels).
WaveCatcher64Ch_Library_1.1.16.pdf
Users manual for WaveCatcher64Ch Control and Readout Library
WaveCatcherSoftware_V1.1.pdf
User manual for the WaveCatcher Family Control & Readout software (Windows Only, includes scope-like GUI).

Caen

DT5751 Product Page
Caen product page for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.
DT5751 User Manual
User manual for DT5751 2-4 Channel 10 bit 2/1 GS/s Digitizer.
DT5740 Product Page
Caen product page for DT5740 16/32-Channel 12 bit 62.5MS/s Digitizer supporting DPP-QDC firmware.
DT5740 User Manual
User manual for the DT5740 Desktop 16/32-channel Desktop Digitizer, that also functions in QDC charge integration mode with the DPP-QDC firmware.
UM4874_DPP-QDC_UserManual
User manual for the Digital Pulse Processing for Charge to Digital Converter DPP-QDC implemented exclusively for the "D" model of the 740 Digitizer series (740D).