Proton Calorimetry/Experimental Runs/2017/Aug10-31

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Experimental tests with Nuvia 3mm scintillator sheets and Pravda CMOS stacked sensor.

Set-up of MAPS

This section contains the instructions to take images with the MAPS sensor developed for the PRaVDA collaboration. In order to use the MAPS sensor, three components are essential:

  • MAPS sensor integrated in board
  • Multiplexer
  • Computer with aSpect software

Then follow these steps:

  • Launch computer. Password: aSpect
  • Window will open automatically. In "Drive U Substitution" select first entry. Then press "substitute".
  • Open "IDMate":
    • In "DUT Grap" (find it in upper left corner) select "Init Testsystem" and press "play" button.
    • TCP will show error message.
    • Set settings:
      • n21: Stream_master: value=1
      • n32: CB111_En: value=1
      • n46: BeamClk_En: value=0
    • Confirm by pressing "Set all"
    • Select "DUT init CT mode" and press play button.
    • To record frames, select "Streaming Start" and press play. It will ask you to select a file name. After confirmation, frames are recorded.
    • More important settings:
      • n24: Set saving path for file.
      • n26: Stream_repeats: set number of frames. "0" equals one frame, "1" equals two frames, etc.
      • n28:Stream_daqtime: integration time of sensor in seconds. Must be an integer between 1 and 6.
    • To exit IDMate, select "DUT Exit" and press play button.
  • Files are stored in a binary format. In order to have a quick look at the output, use "Pravda file viewer".
    • Select file in upper bar. Then press "Read file".
    • Select "Image" button to see visualisation of the binary data.
    • There is the possibility to export the data as .txt file or .tif image.


Analysis of binary data

There is a python script allowing to quickly plot and analyze the binary data generated by a MAPS sensor, written by Michaela Esposito. All necessary functions are collected in "CMOS_functions.py". A minimum example of how to use those functions can be found in "example.py."

10th August

On the 10th of August 2017, a first test of the MAPS sensor guided by Dr. Michaela Esposito took place at UCL. A scintillator sheet of 1cm thickness has been flashed by an LED. The distance between MAPS sensor and scintillator was about 1cm. A picture of the bright scintillator has successfully been taken using the MAPS sensor. [Link to picture]

14th August

On the 14th of August 2017, more tests of the MAPS sensor, using a 3mm thick scintillator sheet have been performed. The MAPS sensor successfully recorded a picture of the scintillator sheet flashed with an LED. [Link to picture]