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users:ngadiuba:bpix:controlroom [2014/12/11 14:03] – created ngadiubausers:ngadiuba:bpix:controlroom [2014/12/11 14:20] (current) ngadiuba
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 source setup.csh source setup.csh
 run pixel supervisors, 2 options: run pixel supervisors, 2 options:
-   (a) open 5 windows, go to RUN, setup,csh, run each supervisor by  +(a) open 5 windows, go to RUN, setup,csh, run each supervisor by  
-       ./run_xdaq_pixelsuper.sh   +./run_xdaq_pixelsuper.sh   
-       ./run_xdaq_pixelfecsuper.sh   +./run_xdaq_pixelfecsuper.sh   
-      ./run_xdaq_pixeltkfecsuper.sh   +./run_xdaq_pixeltkfecsuper.sh   
-      ./run_xdaq_pixelfedsuper1.sh   +./run_xdaq_pixelfedsuper1.sh   
-      ./run_xdaq_pixelfedsuper2.sh  +./run_xdaq_pixelfedsuper2.sh  
  
-       To kill POS you have to do CtrlC in each window. +To kill POS you have to do CtrlC in each window. 
-        + 
-   (b) run everything from one script by +(b) run everything from one script by 
-         ./run_supervisors.sh  (the messages on the console will be mixed-up) +./run_supervisors.sh  (the messages on the console will be mixed-up) 
-   + 
-     TO kill POS do "killall xdaq.exe", it leaves the xdaq deamon running.+TO kill POS do "killall xdaq.exe", it leaves the xdaq deamon running.
  
 Log into vmepcs2b16-10 Log into vmepcs2b16-10
Line 85: Line 85:
  
 1) Connect cooling tubes, power cables,  fibres. 1) Connect cooling tubes, power cables,  fibres.
 +
 2) Switch on cooling, observe flow and pressure. 2) Switch on cooling, observe flow and pressure.
  
 For each shell, start e.g. with BpI For each shell, start e.g. with BpI
- +
 3) Select the right detconfig in the detconfig directory. 3) Select the right detconfig in the detconfig directory.
 +
 4) Power CCU (2.5V), observe current. 4) Power CCU (2.5V), observe current.
-5) Power opto (2.5V)  sector by sector 1-8, + 
-    observe currents. +5) Power opto (2.5V)  sector by sector 1-8, observe currents. 
-6) Run the test program to scan the rings. + 
-    All devices should there.+6) Run the test program to scan the rings. All devices should there. 
 7) Loop over sectors 7) Loop over sectors
-    Power LV (2.8 D, 1.99 A, power HV 150V). +Power LV (2.8 D, 1.99 A, power HV 150V). 
-    Configure, observe currents.+Configure, observe currents. 
 8) Once all sector are up try baseline. 8) Once all sector are up try baseline.
 +
 9) If ROCs not programmed run DELAY25. 9) If ROCs not programmed run DELAY25.
  
Line 111: Line 116:
  
 1) Delay 25 1) Delay 25
 +
 2) Baseline  2) Baseline 
 +
 3) Clock 3) Clock
 +
 4) Baseline  4) Baseline 
 +
 5) AohBias & AohGain 5) AohBias & AohGain
 +
 6) Baseline  6) Baseline 
 +
 7) ROCUB 7) ROCUB
 +
 8) TBMUB 8) TBMUB
 +
 9) Baseline 9) Baseline
-10) Address levels (this is the first time we will use hits  + 
-                               so CalDel and VcThr are an issue)+10) Address levels (this is the first time we will use hits so CalDel and VcThr are an issue)
 If this works, be happy, if not do If this works, be happy, if not do
  
 11) VcTheCalDelFIFO3 "toronado" 11) VcTheCalDelFIFO3 "toronado"
-      if it does not work try VcThrCalDelFIFO1 +if it does not work try VcThrCalDelFIFO1 
- Than run again Address levels.+Than run again Address levels.
  
 Now we can test the finer cleanness. Now we can test the finer cleanness.
 Final calibrations at the final temperature. Final calibrations at the final temperature.
users/ngadiuba/bpix/controlroom.1418303013.txt.gz · Last modified: 2014/12/11 14:03 by ngadiuba

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