Proton Calorimetry/Experimental Runs/2017/Aug10-31: Difference between revisions

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After summing all pictures and subtracting the background measurement, the following image quality may be obtained:
After summing all pictures and subtracting the background measurement, the following image quality may be obtained:
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[http://www.hep.ucl.ac.uk/pbt/wikiData/images/PRIAPUS/LED_Scint10mm_100kHz_4V_20ns_1frame_1sDAQ_1sensor_cRTS_BGS http://www.hep.ucl.ac.uk/pbt/wikiData/images/PRIAPUS/LED_Scint10mm_100kHz_4V_20ns_1frame_1sDAQ_1sensor_cRTS_BGS]
[http://www.hep.ucl.ac.uk/pbt/wikiData/images/PRIAPUS/LED_Scint10mm_100kHz_4V_20ns_1frame_1sDAQ_1sensor_cRTS_BGS http://www.hep.ucl.ac.uk/pbt/wikiData/images/PRIAPUS/LED_Scint10mm_100kHz_4V_20ns_1frame_1sDAQ_1sensor_cRTS_BGS]

Revision as of 17:23, 22 August 2017

Experimental tests with Nuvia 10mm and 3mm scintillator sheets and Pravda CMOS stacked sensor.

Set-up of the MAPS sensor

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

The MAPS sensor has to be set up in a light-tight box. Connect the board to the Multiplexer and the Multiplexer with the computer, using the labeled cables. Remove the the aluminum foil in front of the sensor. It is important not to touch the MAPS sensor, especially while taking pictures when the bias voltage is switched on. Doing otherwise might destroy the sensor! Turn on the board and the multiplexer. Place the scintillator sheet in front of the sensor, the unwrapped side pointing towards it. Switch on the LED board. Set the settings of the LED, e.g. frequency=100kHz, puls lenght=30ns, bias voltage=5V. Then switch on the LED.

Follow these steps to take an image with the MAPS sensor:

  • Launch computer. Password: aSpect
  • Some 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.

The MAPS sensor will take 45 images per second. It is important to note that the first three images recorded by the MAPS sensor (numbered "-1", "0", and "1"), have to be discarded because of image errors. In addition, the upper five pixel rows of of each image show irregular behaviour and should be discarded in further analysis.

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. The LED has been flashed at a bias voltage of 5V, a pulse length of 30ns and a frequency of 100kHz, corresponding to the maximum save settings to operate the LED.

A picture of the bright scintillator has successfully been taken using the MAPS sensor. Single picture with background 10mm

http://www.hep.ucl.ac.uk/pbt/wikiData/images/PRIAPUS/LED_Scint10mm_100kHz_5V_30ns_1frame_1sDAQ_1sensor_cRTS_17.tif.pdf
Single picture with background.

After summing all pictures and subtracting the background measurement, the following image quality may be obtained:

http://www.hep.ucl.ac.uk/pbt/wikiData/images/PRIAPUS/LED_Scint10mm_100kHz_4V_20ns_1frame_1sDAQ_1sensor_cRTS_BGS
Summed background-subtracted picture 10mm.

14th August

On the 14th of August 2017, more tests of the MAPS sensor, using a 3mm thick scintillator sheet have been performed at UCL. The MAPS sensor successfully recorded a picture of the scintillator sheet flashed with an LED. Summed background-subtracted picture 3mm