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design
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Table of Contents
Design Overview
wrede_lecm_pxct_decay_station_11aug2020.pptx
jina_frontiers_23may2019_lijie_sun.pptx
pxct_hardware_20230726.pptx
Detector Selection
Electronics
MPR-1 preamplifier https://www.mesytec.com/products/nuclear-physics/MPR-1.html
MNV-4 power supply https://www.mesytec.com/products/nuclear-physics/MNV-4.html
MHV-4 bias supply https://www.mesytec.com/products/nuclear-physics/MHV-4.html
Intelligent Preamplifier for HPGe Detectors (iPA for Flanged Cryostats) https://www.mirion.com/products/ipa-intelligent-preamplifier-for-hpge-detectors
Vacuum Solutions
Dry Scroll Pumps https://www.agilent.com/en/product/vacuum-technologies/dry-scroll-pumps
IDP-15 Dry Scroll Pump https://www.agilent.com/en/product/vacuum-technologies/dry-scroll-pumps/idp-pumps/idp-15-dry-scroll-pump
Base pressure 1.3×10-2 mbar 1×10-2 Torr
Turbo Pumps https://www.agilent.com/en/product/vacuum-technologies/turbo-pumps-controllers/turbo-pumps
TwisTorr 84 FS Turbo Pump https://www.agilent.com/en/product/vacuum-technologies/turbo-pumps-controllers/turbo-pumps/twistorr-84-fs-turbo-pump
Base Pressure <5 x 10-10 mbar
TwisTorr 84 FS Onboard Controller https://www.agilent.com/en/product/vacuum-technologies/turbo-pumps-controllers/turbo-pump-controllers/twistorr-84-fs-onboard-controller
TwisTorr 84 FS-AG Rack Controller https://www.agilent.com/en/product/vacuum-technologies/turbo-pumps-controllers/turbo-pump-controllers/twistorr-84-fs-ag-rack-controller
Data Acquisition System
The NSCL Data Acquisition system is a general-purpose nuclear physics data acquisition system in use at the National Superconducting Cyclotron Laboratory at Michigan State University.
NSCL Data Acquisition Documentation http://docs.nscl.msu.edu/daq/newsite/index.php http://docs.nscl.msu.edu/daq/newsite/ddas-1.1/pages.html
1) Turn on the crate.
2) Open a terminal on SPDAQ01. sudo /usr/opt/plx/Bin/Plx_load 9054. Enter password.
3) cd readout/crate_1 $DDAS_BIN/nscope
4) File→save. save a set file. Enter the name of that set file in the cfgPixie16.txt. 1 # crate id 1 # number of cards 2 # slot of first card /path/to/my/params.set # path to params
5) $DAQBIN/DDASReadout begin/end/exit
6) Open a second terminal. cd readout/crate_1 $DAQBIN/dumper –count=50 when running Readout.
you'll see
Event 24 bytes long Body Header: Timestamp: 22366590 SourceID: 0 Barrier Type: 0 000c 0000 0064 0c0c 4020 0008 20f3 0022 0000 1bdc 296f 0000
$DAQBIN/dumper –source=tcp:localhost/0400x_ddas_1 –count=50 when running ReadoutShell. you'll see Event 76 bytes long Body Header: Timestamp: 5991399620 SourceID: 0 Barrier Type: 0 004c 0000 80c4 651d 0001 0000 0000 0000 0034 0000 0000 0000 0034 0000 001e 0000 0014 0000 80c4 651d 0001 0000 0000 0000 0000 0000 000c 0000 0064 0c0c 4020 0008 267a 23b6 0000 1ad3 2943 0000 7) $DAQBIN/ReadoutShell start/begin/end generate evt file 8) Open a third terminal. cd readout/SpecTcl/ ./Launch_SpecTclspectcl Define the spectrum name. File→Save as a tcl file. Load that tcl file. Data source→file-load evt file. 9) Go to Xamine window. Click display+ and the spectrum. Click expand and type in two channels can zoom in.
design.1691026885.txt.gz · Last modified: 2023/08/02 21:41 by sunli
