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Message ID: 47     Entry time: Mon Feb 23 11:10:44 2015
Author: TD 
Subject: Outline test plan - RIKEN - Feb 2015  
With the exception of one AIDA FEE64 PSU configuration test (5) and the upgrades
of the AIDA FEE64 firmware (8) and MIDAS DAQ software (9) we have now completed all
of tasks described in the outline plan.
Attachment 1: RIKEN_test_-_Feb_2015.txt  2 kB  | Hide | Hide all 
Outline test plan - RIKEN - Feb 2015

1) Move Julabo FL006 recirculating chiller (plus ac mains transformer)
   and AIDA assembly stand into position.

   Consult Shunji Nishimura
   If we move equipment for the test, do we have to move it back before we leave?

2) Check 3-phase connection to ac mains transformer. Check chiller POST.

   TD - upload images from April/May 2014 to Elog

3) Re-connect Julabo FL006 recirculating chiller to AIDA assembly.
   Inspect coolant loop. Check coolant levels. Start chiller.
   Inspect for leaks. Check coolant levels.

4) Replace faulty USB-controlled ac mains switch. Test operation with
   FEE modules disconnected.

5) Connect 8x FEE modules to ?x FEE PSUs.

   PCS - default initial configuration?

6) Check MACB cabling. Power up 8x FEE modules.

7) Check setup & configuration (ASICs, FEE64).
   Default ASIC parameters (tau = 2us). Waveforms off.

8) Test FEE64 performannce with pulser and no input load.
   Expect pulser peak width < 15 ch FWHM.

*** Status quo ante re-established ***


Test 1

1) Install 1x MSL type BB18-1000 DSSSD with 3x modified 0.9m Kapton PCBs
   plus 1x unmodified 0.9m Kapton PCB. Install 207Bi source.

2) Bias DSSSD using Silena 7710 Quad Bias Supply (ground referenced bias)
   and confirm stability problems observed April/may 2014 are still present.

Test 2

1) Bias DSSSD using CAEN N1419B (floating bias) and confirm stability problems
   improve. Assess impact of preAmp reference setting - if possible, proceed
   with default setting.

2) Test FEE64 performance with pulser.
   Expectation pulser peak width < 120-150 ch FWHM.

Test 3

1) Adjust FEE64 PSU voltage levels per procedure described by PCS.

2) Test FEE64 performance with pulser. Compare to previous test.

Test 4

1) Attach heavy-duty grounding cable between FEE adaptor PCBs.

2) Test FEE64 performance with pulser. Compare to previous tests.

Test 5

1) Re-configure FEE PSU cabling per PCS request(s)

2) Test FEE64 performance with pulser. Compare to previous tests.

Test 6

1) Re-assess impact of preAmp reference setting.

Test 7

1) With optimum configuration obtain and analyse data files with pulser
   and 207Bi data.

Test 8

1) Update FEE firmware. Repeat test 7.

Test 9

1) Update MIDAS software. Repeat test 7.
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