| ID |
Date |
Author |
Subject |
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116
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Thu Nov 5 16:28:05 2015 |
CG, TD | 5 Nov 2015 - New kapton cable tests @ DL |
New Kapton PCB design (2x 0.45m + inter-connecting PCB, no ground plane layers) under test with small system in T9.
3 cables modified to remove ground connection.
When just connected to system and BB18 2998-20, with no additional grounding or shielding of the cables
and bias of +200V (leakage current +6.2uA, ambient temp +27 deg C) to nnaida14, we observed average pulser peak widths
of ~250ch FWHM
Waveforms were just noise.
Added heavy duty copper braid between adapter PCBs, the small metal box for the detector and Cu tape and drain wire to the kapton connected to nnaida14.
This reduced the peak widths to ~160ch FWHM
Adding grounding between the adapter PCBs and the NIM bin chasis increased the peak widths.
Waveforms for nnaida11-13 remained unchanged, but expected (albeit noisy) traces could be seen for nnaida14).
------> Patrick: with ASIC1 waveforms for all nnaida turned on, we found they would occasionally stall for some. e.g. of 4 being observed, upon update, only 1 or 2 actually would. Stop-Go did not resolve this. Load/check ASIC resolved issue.
nnaida14 developed double peaking of pulser peak.
Note waveforms exhibit significantly faster risetime than previous Kapton PCB variants => lower C, as expected |
| Attachment 1: nnaida11_spec_noCuTape.png
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| Attachment 2: nnaida11_wav_noCuTape.png
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| Attachment 3: nnaida12_bad.png
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| Attachment 4: nnaida12_spec_nocuTape.png
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| Attachment 5: nnaida12_specZoom_noCuTape.png
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| Attachment 6: nnaida12_wav_noCuTape.png
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| Attachment 7: nnaida13_wav_noCuTape.png
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| Attachment 8: nnaida14_spec_all.png
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| Attachment 9: nnaida14_specZoom_all.png
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| Attachment 10: nnaida14_wav_all.png
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| Attachment 11: nnaid14_spec_all.png
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151
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Wed Feb 10 10:56:02 2016 |
CG, TD | 9-10 February 2016 |
MSL type BB18(DS)-1000 serial 2998-22
Bias +200V, I_L +=6.540uA, ambient temperature +19.9 deg C
DSSSD - AIDA adaptor PCB cabling
4 off LH Coupler (Kapton PCB, 5cm), 2x 34-way Samtec ribbon cable (45cm), RH coupler(Kapton PCB, 10cm)
+ 3M 1245 1.4mil copper foil screen ribbon cables + RH coupler only (i.e. not LH coupler)
+ drain wires -> gold-plated Lemo-00 test input connectors
nnaida 11 & 12 AIDA adaptor PCB rev B
nnaida 13 & 14 AIDA adaptor PCB rev C (LK1 fitted)
ground links LK3 & LK7 fitted to nnaida11-14 AIDA adaptor PCBs
Heavy duty copper cable connects copper front end frames of FEE modules
Nitto 5011N conductive gasket between FEE module and front end frames
Standard ASIC settings
nnaida 11 & 12 - negative input
nnaida 13 & 14 - positive input
Pulser BNC PB-5
Fall time 1.0ms
Rate 100Hz
Delay 250ns
Ampl 5.00000V
Polarity +
Pulse top Tail
Atten 10x
Clamp ON
- polarity via Cooknell SA1 Summing Amplifier
207Bi source, approx centred on DSSSD, approx 2cm from DSSSD
File R5
shaping time 0.5us
slow comparator 16 (dec)
File R6
shaping time 8us
slow comparator 16 (dec)
start: stop: 18.01
File R7
shaping time 8uS
slow comparator 12 (dec)
start: 18.02 stop: 09.29 10.2.16
spectra saved to disk 11.37 BST (sic)
10.2.16
-------
10.50 Bias +200V, I_L +=6.010uA, ambient temperature +20.0 deg C
File R8
shaping time 8uS
slow comparator 10 (dec)
start: 10.52 stop: 13.12
spectra saved to disk 14.13 BST (sic)
attachments 1 & 2 - hit patterns during R8
DAQ stalled at start of R9
Run control (updated) showed all FEEs going
No good events from nnaida12 & 14, nnaida11 & 13 OK
nnaida would not stop, would not reset
Power cycle to restart
Ignore R9
File R10
shaping time 8uS
slow comparator 10 (dec)
start: 13.27 stop: 14.09
spectra saved to disk 15.10 BST (sic)
Pulser walkthrough 9.00000V-1.00000V @ 1.0000V step
see attachment 3
File R11
shaping time 8uS
slow comparator 10 (dec)
start: 14.12 stop: 14.38
spectra saved to disk 15.39 BST (sic)
Pulser walkthrough 1.00000V-0.200000 @ 0.1000V step
See attachment 4 & 5
Ignore R12 - same issue as before R9
File R13
shaping time 8uS
slow comparator 8 (dec)
start: 14.50 stop: 15.11
Pulser amplitude 5.00000V
File R14
shaping time 8uS
slow comparator 8 (dec)
start: 15.12 stop: 15.20
Pulser amplitude 5.00000V & 0.20000V
File R15
shaping time 8uS
slow comparator 8 (dec)
start: 15.20 stop: 15.28
spectra saved to disk 16.33 BST (sic)
Pulser amplitude 0.10000V & 1.00000V
see attachments 6 & 7
For slow comaparator setting 8 (dec) and with the above BNC PB-5 pulser settings above
the slow comparator rate decreases from the expected 100Hz (plus source) to < 50Hz
between pulser amplitude 0.20000 and 0.10000V.
15.32 Bias +200V, I_L +=6.550uA, ambient temperature +19.6 deg C |
| Attachment 1: 30.png
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| Attachment 2: 31.png
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| Attachment 3: 32.png
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| Attachment 4: 33.png
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| Attachment 5: 34.png
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| Attachment 6: 35.png
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| Attachment 7: 36.png
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647
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Thu Jun 8 23:57:26 2017 |
ZLiu, TD | 9June2017 8:00-16:00 |
08:06 System wide checks all ok
implantation profile - attachment 1
count rate - attachment 2
Bias and leakage currents ok - attachment 3
DAQstatistics
08:30 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_604
08:32 BigRIPS starts run 3090
BRIKEN starts run 85
AIDA on file R7_604
08:44 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_607
08:49 BigRIPS starts run 3091
BRIKEN starts run 86
AIDA on file R7_608
09:42 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_621
*** DAQ synchronisation reset ***
see BRIKEN 2017 Elog http://ribf-exp.riken.jp/elog/BRIKEN2017-June/323
09:51 BigRIPS starts run 3093
BRIKEN starts run 87
AIDA on file R7_623
10:06 System wide checks all ok
Bias and leakage currents ok - attachment 5
count rate - attachment 6
implantation profile - attachment 7
FEE temperature - attachment 8
10.30 layout spectra - see attachments 9-18
analysis of RIBF128/R7_630 - deadtime < 0.5%, no ts timewarps, 4x MBS timewarps - see attachment 19
online analysis - ADC & disc data synchronsed - see attachment 20
10.36 all histograms and SortSas spectra zero'd
10:53 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_636
10:54
BigRIPS starts run 3094
BRIKEN starts run 88
AIDA on file R7_636
11:49 BigRIPS and BRIKEN stop their DAQ
AIDA on file R7_649
11:49 BigRIPS starts run 3095
BRIKEN starts run 89
AIDA on file R7_649
12:15 system wide checks -- OK
see attchments 21-26
12.54 DAQ stop
AIDA file RIBF128/R7_664
12.55 DAQ start
AIDA file RIBF128/R7_664
BRIKEN file 3096
BigRIPS file 90
13.55 BigRIPS team entered the beam line area to place a 1.5 mm Al degrader
DAQ stop
AIDA file on RIBF128/R7_679
BRIKEN file 3096
BigRIPS file 90
14:03 BigRIPS starts run 3097
BRIKEN starts run 91
AIDA on file R7_680
14:52 beam stopped
15:00 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_694
15:02
BigRIPS starts run 3098
BRIKEN starts run 92
AIDA on file R7_694
15:48 beam stopped
15:52 beam back
16:06 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_709
16:08
BigRIPS starts run 3099
BRIKEN starts run 93
AIDA on file R7_710
16:20 system wide checks--OK
see attachments 27-32
17:06 BRIKEN and BigRIPS stop their DAQs
AIDA on file R7_723
17:08
BigRIPS starts run 3100
BRIKEN starts run 94
AIDA on file R7_724 |
| Attachment 1: Imp_profile_9June_8am.png
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| Attachment 2: countrate_09June_8am.png
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| Attachment 3: leakage9June_8am.png
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| Attachment 4: DAQstatistics_9June_8am.png
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| Attachment 5: leakage9june10am.png
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| Attachment 6: imp_profile_9june10am.png
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| Attachment 7: countrate_9june10am.png
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| Attachment 8: FEEtemperature_9june10am.png
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| Attachment 9: 1.png
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| Attachment 10: 2.png
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| Attachment 11: 3.png
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| Attachment 12: 4.png
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| Attachment 13: 5.png
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| Attachment 14: 6.png
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| Attachment 15: 7.png
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| Attachment 16: 8.png
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| Attachment 17: 9.png
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| Attachment 18: 10.png
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| Attachment 19: R7_630.txt
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*** TDR format 3.3.0 analyser - TD - June 2017
*** MBS information: block: 1884 ptr: 7 data: 0x8682000C module: 6 information type: 8 information field: 0x0002000C ts: 0x0F85A753AE84 OLD ts: 0x0F85A753AE84 MBS 0x:000C00001306 OLD MBS 0x:000CBF2C9BB3
*** MBS information: block: 5235 ptr: 7 data: 0x8682000C module: 6 information type: 8 information field: 0x0002000C ts: 0x0F864B4AA3C8 OLD ts: 0x0F864B4AA3C8 MBS 0x:000C0000D057 OLD MBS 0x:000CE83588E3
*** MBS information: block: 6207 ptr: 7 data: 0x8682000C module: 6 information type: 8 information field: 0x0002000C ts: 0x0F867A8EE318 OLD ts: 0x0F867A8EE318 MBS 0x:000C0000E02B OLD MBS 0x:000CF3F89B3F
*** MBS information: block: 31902 ptr: 7 data: 0x8682000E module: 6 information type: 8 information field: 0x0002000E ts: 0x0F8B777BDE48 OLD ts: 0x0F8B777BDE48 MBS 0x:000E00001EF7 OLD MBS 0x:000E333E388D
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 257610096 ( 968538.6 Hz)
Other data format: 3477904 ( 13075.9 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 91 ( 0.3 Hz)
RESUME: 91 ( 0.3 Hz)
SYNC100: 2433935 ( 9150.9 Hz)
FEE64 disc: 1003916 ( 3774.4 Hz)
MBS info: 39871 ( 149.9 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 32314 ( 121.5 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 0 ( 0.0 Hz)
Undefined: 0 ( 0.0 Hz)
Sample trace: 0 ( 0.0 Hz)
*** Timestamp elapsed time: 265.978 s
FEE elapsed dead time(s) elapsed idle time(s)
1 0.067 0.000
2 0.199 0.000
3 0.000 0.000
4 0.000 0.000
5 0.028 0.000
6 0.000 0.000
7 0.000 0.000
8 0.000 0.000
9 0.013 0.000
10 0.125 0.000
11 0.000 0.000
12 0.000 0.000
13 1.038 1.080
14 0.000 0.000
15 0.000 0.000
16 0.000 0.000
17 0.203 0.000
18 0.052 0.000
19 0.000 0.000
20 0.000 0.000
21 0.477 0.000
22 0.046 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 Disc MBS Other HEC Data
0 0 0 0 0 0 0 0 0 0 0 0
1 17678232 167494 0 0 3 3 101419 66069 0 0 3191
2 19646186 167878 0 0 8 8 101374 66488 0 0 2595
3 7737932 112501 0 0 0 0 101451 11050 0 0 180
4 1692054 111223 0 0 0 0 101446 9777 0 0 211
5 11113696 148385 0 0 5 5 101441 46934 0 0 453
6 10322349 191582 0 0 0 0 101452 50259 39871 0 474
7 2201158 112102 0 0 0 0 101445 10657 0 0 401
8 1723355 113617 0 0 0 0 101446 12171 0 0 582
9 12844425 191045 0 0 2 2 101439 89602 0 0 1200
10 12733576 155564 0 0 10 10 101404 54140 0 0 287
11 2940674 112329 0 0 0 0 101446 10883 0 0 202
12 4251873 113452 0 0 0 0 101454 11998 0 0 521
13 31379371 141056 0 0 17 17 101056 39966 0 0 486
14 12638605 158584 0 0 0 0 101451 57133 0 0 961
15 5609595 121127 0 0 0 0 101455 19672 0 0 1384
16 4735040 112816 0 0 0 0 101457 11359 0 0 396
17 11781150 160058 0 0 26 26 101373 58633 0 0 198
18 15509582 162694 0 0 3 3 101429 61259 0 0 253
19 11911400 128233 0 0 0 0 101451 26782 0 0 1361
20 9558420 136456 0 0 0 0 101447 35009 0 0 3598
21 20800306 166284 0 0 13 13 101264 64994 0 0 2963
22 14317928 212192 0 0 4 4 101433 110751 0 0 4322
23 7598137 146810 0 0 0 0 101451 45359 0 0 3277
24 6885052 134422 0 0 0 0 101451 32971 0 0 2818
25 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0
*** MBS Timewarps
FEE
0 0
1 0
2 0
3 0
4 0
5 0
6 4
7 0
8 0
9 0
10 0
11 0
12 0
13 0
14 0
15 0
16 0
17 0
18 0
19 0
20 0
21 0
22 0
23 0
24 0
25 0
26 0
27 0
28 0
29 0
30 0
31 0
32 0
*** Program elapsed time: 26.527s ( 1206.302 blocks/s, 75.394 Mb/s)
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| Attachment 20: 11.png
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| Attachment 21: FEEtemperature9june12am.png
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| Attachment 22: DAQstatistics9june12am.png
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| Attachment 23: DSSDcountrate9june12am.png
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| Attachment 24: imp_profile_9june12am.png
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| Attachment 25: leakage9june12am_2.png
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| Attachment 26: leakage9june12am_1.png
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| Attachment 27: FEEtemperature9june4pm.png
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| Attachment 28: FEErate9june4pm.png
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| Attachment 29: DSSDcountrate9june4pm.png
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| Attachment 30: imp_profile9june4pm.png
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| Attachment 31: leakage2_9june4pm.png
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| Attachment 32: leakage1_9june4pm.png
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862
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Tue Feb 9 11:44:21 2021 |
OH, TD, CA, LS | 9th Feb GSI Dry run |
Database file - 2019Dec19-16.19.51
Current threshold at 0x64
13:27 Recovered from power cycle
System wide checks all ok - Attachments 1-6
*NB* Synchronise the ASIC clocks doesn't work - Attachment 7
ASIC Control ok
FEE temperatures ok - Attachment 8
Bias and leakage currents ok - Attachment 9
New taper service menu - Attachment 10
Pulser peaks log plot - Attachments 11-12
1.8.L pulser peaks - Attachment 13-14
Waveform plots - Attachment 15-16
FEE7 we aren't seeing a HIT pattern but we are seeing ADC data items -> It was a corrupted options file
15:20 DAQ Crashed after enabling data transfer
Problem was not configuring the tapeserver correctly
Have recovered from this. There are now no histograms for FEE09
This is because the options file has been corrupted during startup.
From the statistics it appear we are still reading data on the FEE
Chosen to let the DAQ run in this state to test stability for the time being |
| Attachment 1: SystemWideChecks1145.PNG
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| Attachment 2: ClockStatus1145_1.PNG
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| Attachment 3: ADC_Calibration_1146.PNG
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| Attachment 4: SystemWideChecks1147.PNG
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| Attachment 5: 1148_SystemWideChecksFPGA.PNG
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| Attachment 6: 1148_MemInfo.PNG
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| Attachment 7: 1152_SychroniseASICClocks.PNG
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| Attachment 8: 1153_FeeTemp.PNG
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| Attachment 9: 1229_Bias.PNG
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| Attachment 10: 1233_TapeService.PNG
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| Attachment 11: 1320_1_8_L_Odd.PNG
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| Attachment 12: 1322_1_8_L_Even.PNG
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| Attachment 13: 1326_1_8_L_Odd_05_100_Width.PNG
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| Attachment 14: 1327_1_8_L_Even_08_90.PNG
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| Attachment 15: 1332_Waveform_odd.PNG
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| Attachment 16: 1333_Waveform_Even.PNG
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606
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Sun May 28 09:55:11 2017 |
PV | ADC offset value from pulser walkthrough run May2017/R28 R29 |
ADC offset calculation using data from pulser walkthrough runs, see:
https://elog.ph.ed.ac.uk/AIDA/603
Attachment 1,2: excel and text file with tabulated ADC offset values.
Attachment 3,4: 2D histogram pulser amplitute vs channel number (with gain matching applied) for validating the
calculation.
Note: Channel with ADC offset=0 means ADC offset could not be calculated properly due to poor resolution/low
statistic |
| Attachment 1: ADC_offset_R2829_BRIKENMay2017.xls
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| Attachment 2: ADC_offset_R2829_BRIKENMay2017.txt
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FEE FEE channel DSSD DSSD strip ADC offset
1 55 0 0 0
1 58 0 1 160.315
1 61 0 2 -1061.5
1 54 0 3 0
1 57 0 4 0
1 60 0 5 26.1429
1 63 0 6 -1003.97
1 53 0 7 150.041
1 56 0 8 -1349.58
1 59 0 9 -2033.84
1 50 0 10 -2098.5
1 51 0 11 -238.883
1 52 0 12 -503.145
1 62 0 13 0
1 47 0 14 -268.034
1 48 0 15 184.998
1 49 0 16 611.141
1 43 0 17 160.463
1 44 0 18 -211.64
1 45 0 19 -651.097
1 46 0 20 -1111.11
1 40 0 21 -732.714
1 41 0 22 -450.85
1 42 0 23 -1310.63
1 36 0 24 -15.5039
1 37 0 25 -581.786
1 38 0 26 -650.112
1 39 0 27 493.827
1 33 0 28 1286.64
1 34 0 29 51.5996
1 35 0 30 -337.466
1 29 0 31 886.431
1 30 0 32 -621.958
1 31 0 33 141.713
1 32 0 34 245.211
1 26 0 35 425.936
1 27 0 36 -82.1183
1 28 0 37 -386.293
1 22 0 38 -116.425
1 23 0 39 3.10486
1 24 0 40 -51.2821
1 25 0 41 180.78
1 19 0 42 -838.291
1 20 0 43 220.049
1 21 0 44 1115.69
1 15 0 45 -988.056
1 16 0 46 739.526
1 17 0 47 1296.89
1 18 0 48 -165.164
1 12 0 49 -173.776
1 13 0 50 -232.032
1 14 0 51 320.421
1 8 0 52 -535.988
1 9 0 53 -809.382
1 10 0 54 374.13
1 11 0 55 -780.142
1 5 0 56 -868.296
1 6 0 57 -282.667
1 7 0 58 65.6045
1 2 0 59 54.0541
1 3 0 60 -1261.87
1 4 0 61 144.928
1 0 0 62 -1044.35
1 1 0 63 -165.857
22 1 0 64 -2301.27
22 0 0 65 -1747.67
22 4 0 66 -808.567
22 3 0 67 1466.38
22 2 0 68 1152.62
22 7 0 69 -414.729
22 6 0 70 -243.858
22 5 0 71 662.312
22 11 0 72 -795.654
22 10 0 73 -46.2287
22 9 0 74 -881.317
22 8 0 75 -413.876
22 14 0 76 -495.745
22 13 0 77 -78.4195
22 12 0 78 -274.558
22 18 0 79 132.451
22 17 0 80 -554.268
22 16 0 81 -582.894
22 15 0 82 -849.383
22 21 0 83 1480.9
22 20 0 84 -1323.87
22 19 0 85 446.398
22 25 0 86 -469.393
22 24 0 87 -399.177
22 23 0 88 -278.484
22 22 0 89 -680.484
22 28 0 90 -1325.57
22 27 0 91 -783.963
22 26 0 92 -659.73
22 32 0 93 -630.195
22 31 0 94 -1136.88
22 30 0 95 -1010.53
22 29 0 96 -1722.21
22 35 0 97 -1127.55
22 34 0 98 825.926
22 33 0 99 440.757
22 39 0 100 -1697.44
22 38 0 101 103.25
22 37 0 102 0
22 36 0 103 424.193
22 42 0 104 -479.774
22 41 0 105 398.421
22 40 0 106 -1887.55
22 46 0 107 137.013
22 45 0 108 -644.64
22 44 0 109 343.118
22 43 0 110 -75.6057
22 49 0 111 -492.97
22 48 0 112 -717.677
22 47 0 113 -566.046
22 62 0 114 102.053
22 52 0 115 -211.071
22 51 0 116 -767.736
22 50 0 117 -1132.14
22 59 0 118 -372.629
22 56 0 119 -1521.17
22 53 0 120 -298.884
22 63 0 121 -1837.99
22 60 0 122 -1676.23
22 57 0 123 -288.91
22 54 0 124 975.866
22 61 0 125 44.1325
22 58 0 126 -19843.4
22 55 0 127 0
20 55 0 128 -510.057
20 58 0 129 201.987
20 61 0 130 -23.7113
20 54 0 131 -1684.83
20 57 0 132 560.064
20 60 0 133 1071.08
20 63 0 134 -1545.66
20 53 0 135 -1637.05
20 56 0 136 1016.24
20 59 0 137 -1650.79
20 50 0 138 -557.348
20 51 0 139 415.364
20 52 0 140 1204.07
20 62 0 141 657.196
20 47 0 142 975.173
20 48 0 143 -46.8824
20 49 0 144 531.18
20 43 0 145 1859.65
20 44 0 146 -589.799
20 45 0 147 287.678
20 46 0 148 21.5414
20 40 0 149 1376.88
20 41 0 150 -273.542
20 42 0 151 -762.122
20 36 0 152 -584.791
20 37 0 153 -802.072
20 38 0 154 1344.75
20 39 0 155 -65.8198
20 33 0 156 -863.765
20 34 0 157 967.699
20 35 0 158 831.597
20 29 0 159 -745.856
20 30 0 160 -132.662
20 31 0 161 -655.246
20 32 0 162 -937.552
20 26 0 163 -478.081
20 27 0 164 750.276
20 28 0 165 -135.578
20 22 0 166 -1147.72
20 23 0 167 1289.59
20 24 0 168 1794.01
20 25 0 169 635.569
20 19 0 170 -272.927
20 20 0 171 -1436.17
20 21 0 172 -387.847
20 15 0 173 1665.19
20 16 0 174 78.7561
20 17 0 175 -897.482
20 18 0 176 -392.579
20 12 0 177 -580.751
20 13 0 178 -415.345
20 14 0 179 1106.96
20 8 0 180 -237.416
20 9 0 181 714.365
20 10 0 182 995.211
20 11 0 183 -17.8898
20 5 0 184 1007.69
20 6 0 185 905.856
20 7 0 186 750.788
20 2 0 187 -227.663
20 3 0 188 -1409.12
20 4 0 189 954.431
20 0 0 190 -345.31
20 1 0 191 -1447.96
23 1 0 192 -1879.93
23 0 0 193 -27.8571
23 4 0 194 -1155.53
23 3 0 195 -1009.5
23 2 0 196 -1217.13
23 7 0 197 1270.29
23 6 0 198 -1295.29
23 5 0 199 -1658.29
23 11 0 200 -1346.47
23 10 0 201 -903.828
23 9 0 202 -1018.44
23 8 0 203 -1685.34
23 14 0 204 -800.227
23 13 0 205 -581.658
23 12 0 206 -990.968
23 18 0 207 -2685.88
23 17 0 208 990.59
23 16 0 209 -1921.35
23 15 0 210 -2155.64
23 21 0 211 174.225
23 20 0 212 690.934
23 19 0 213 -1100.72
23 25 0 214 1340.55
23 24 0 215 -1614.22
23 23 0 216 392.633
23 22 0 217 932.032
23 28 0 218 -115.256
23 27 0 219 275.795
23 26 0 220 544.631
23 32 0 221 225.41
23 31 0 222 -1459.41
23 30 0 223 -604.776
23 29 0 224 289.981
23 35 0 225 -2689.78
23 34 0 226 -1324.5
23 33 0 227 -1005.84
23 39 0 228 -823.645
23 38 0 229 -493.225
23 37 0 230 -1961.28
23 36 0 231 -547.965
23 42 0 232 106.496
23 41 0 233 145.228
23 40 0 234 -1680.88
23 46 0 235 -248.975
23 45 0 236 -3090.91
23 44 0 237 948.959
23 43 0 238 -1702.2
23 49 0 239 1048.65
23 48 0 240 -1536.06
23 47 0 241 -1176.84
23 62 0 242 -613.672
23 52 0 243 1125.73
23 51 0 244 1050.92
23 50 0 245 326.619
23 59 0 246 1032.55
23 56 0 247 608.142
23 53 0 248 400.993
23 63 0 249 737.138
23 60 0 250 811.228
23 57 0 251 -421.518
23 54 0 252 -1699.3
23 61 0 253 58.319
23 58 0 254 -305.711
23 55 0 255 -32871.8
2 55 1 0 0
2 58 1 1 -18559.5
2 61 1 2 -15.4397
2 54 1 3 -879.775
2 57 1 4 -2080.79
2 60 1 5 -1485.74
2 63 1 6 -20.4736
2 53 1 7 411.555
2 56 1 8 394.25
2 59 1 9 73.8471
2 50 1 10 247.185
2 51 1 11 123.739
2 52 1 12 278.813
2 62 1 13 -1314.71
2 47 1 14 -1660.1
2 48 1 15 -1879.67
2 49 1 16 1693.06
2 43 1 17 217.43
2 44 1 18 -1708.97
2 45 1 19 -2059.4
2 46 1 20 -440.392
2 40 1 21 63.1644
2 41 1 22 -1750.13
2 42 1 23 -60.6986
2 36 1 24 -369.695
2 37 1 25 -592.817
2 38 1 26 -1945.53
2 39 1 27 -2132.41
2 33 1 28 -1774.61
2 34 1 29 -722.706
2 35 1 30 0
2 29 1 31 407.862
2 30 1 32 -8.7858
2 31 1 33 -163.882
2 32 1 34 0
2 26 1 35 79.4722
2 27 1 36 -152.56
2 28 1 37 1041.55
2 22 1 38 141.129
2 23 1 39 510.511
2 24 1 40 118.919
2 25 1 41 1392.49
2 19 1 42 -437.908
... 1238 more lines ...
|
| Attachment 3: cal_histo.png
|
|
| Attachment 4: cal_histo.root
|
|
302
|
Fri Jun 10 12:51:19 2016 |
TD | ADC offsets - pass 1 -18.15 3 June 2016 |
Column order:
Channel = (fee# - 1)*64 + (asic# - 1)*16 + channel
FEE
ASIC
Channel
Offset (ADC channels)
Offset error (ADC channels)
INL (%)
# peaks
Spectrum name
ADC offset to be used as follows:
adc(i) = INT( ABS( raw_adc(i) - 32768 ) - offset(i) + 0.5 )
This is a first pass analysis with ~90% of the ADC offsets and something approaching ~95% achievable
(64 channels of nnaida19 not operational).
Recommend ignoring those with INL > 1%, offsets > 500 channels |
| Attachment 1: offsets.dat
|
0 1 1 0 221.27 0.49 -0.590 9 1.0.L
1 1 1 1 96.21 0.96 -0.696 7 1.1.L
2 1 1 2 73.14 0.48 -0.660 9 1.2.L
3 1 1 3 254.76 0.48 -0.820 9 1.3.L
4 1 1 4 64.25 0.49 -0.906 9 1.4.L
5 1 1 5 316.39 0.48 -0.973 9 1.5.L
6 1 1 6 156.65 0.48 -0.721 9 1.6.L
7 1 1 7 150.55 0.48 -0.963 9 1.7.L
8 1 1 8 59.64 0.47 -0.609 9 1.8.L
9 1 1 9 237.20 0.48 -0.885 9 1.9.L
10 1 1 10 32.75 0.47 -0.780 9 1.10.L
11 1 1 11 115.78 0.47 -0.633 9 1.11.L
12 1 1 12 207.48 0.63 -0.831 8 1.12.L
13 1 1 13 96.96 0.46 -0.554 9 1.13.L
14 1 1 14 60.74 0.47 -0.551 9 1.14.L
15 1 1 15 932.86 3.62 -2.441 3 1.15.L INL > 1%
16 1 2 0 -212.45 0.46 -0.802 9 2.0.L
17 1 2 1 1295.62 0.50 -0.790 8 2.1.L
18 1 2 2 -468.76 3.91 -3.122 3 2.2.L INL > 1%
19 1 2 3 140.15 0.45 -0.325 9 2.3.L
20 1 2 4 -43.74 0.46 -0.602 9 2.4.L
21 1 2 5 -859.66 3.94 -3.295 3 2.5.L INL > 1%
22 1 2 6 -3.00 0.47 -0.449 9 2.6.L
23 1 2 7 -66.06 0.45 -0.844 9 2.7.L
24 1 2 8 -420.04 3.64 -4.023 3 2.8.L INL > 1%
25 1 2 9 -801.25 3.86 -3.924 3 2.9.L INL > 1%
26 1 2 10 936.38 1.26 -14.980 3 2.10.L INL > 1%
27 1 2 11 -581.39 3.66 -4.018 3 2.11.L INL > 1%
28 1 2 12 -1109.67 3.84 -5.496 3 2.12.L INL > 1%
29 1 2 13 -8728.93 4.31 -2.102 3 2.13.L INL > 1%
30 1 2 14 5373.29 1.33 -14.201 3 2.14.L INL > 1%
31 1 2 15 -3621.62 3.67 -4.831 3 2.15.L INL > 1%
32 1 3 0 2825.79 3.75 -6.178 3 3.0.L INL > 1%
33 1 3 1 6377.89 1.50 -12.869 3 3.1.L INL > 1%
34 1 3 2 -7968.25 2.92 -0.503 4 3.2.L
35 1 3 3 1059.21 3.81 -3.203 3 3.3.L INL > 1%
36 1 3 4 1188.25 3.67 -0.424 3 3.4.L
37 1 3 5 812.02 3.76 -0.411 3 3.5.L
38 1 3 6 402.38 2.35 -0.884 4 3.6.L
39 1 3 7 31.54 0.91 -0.573 4 3.7.L
40 1 3 8 1175.06 3.21 -0.495 3 3.8.L
41 1 3 9 686.01 2.24 -0.827 4 3.9.L
42 1 3 10 192.03 0.46 -0.766 9 3.10.L
43 1 3 11 826.79 3.71 -0.598 3 3.11.L
44 1 3 12 -15.18 0.47 -0.920 9 3.12.L
45 1 3 13 -8.05 0.45 -0.897 9 3.13.L
46 1 3 14 -1391.29 0.55 -0.538 9 3.14.L
47 1 3 15 -44213.33 3.89 -27.410 3 3.15.L INL > 1%
48 1 4 0 -1231.94 1.11 -0.559 6 4.0.L
49 1 4 1 -1375.25 0.73 -0.903 8 4.1.L
50 1 4 2 -1343.70 0.56 -0.600 9 4.2.L
51 1 4 3 -1312.69 1.16 -0.251 6 4.3.L
52 1 4 4 -48308.69 4.13 -27.547 3 4.4.L INL > 1%
53 1 4 5 -1140.83 0.74 -0.618 8 4.5.L
54 1 4 6 -9999.99 0.00 0.000 37 4.6.L > 10 peaks or no data
56 1 4 8 313.08 0.49 -0.721 9 4.8.L
57 1 4 9 -9999.99 0.00 0.000 37 4.9.L > 10 peaks or no data
59 1 4 11 418.03 0.49 -0.619 9 4.11.L
60 1 4 12 -9999.99 0.00 0.000 37 4.12.L > 10 peaks or no data
61 1 4 13 257.28 0.80 -0.701 9 4.13.L
62 1 4 14 -9999.99 0.00 0.000 37 4.14.L > 10 peaks or no data
63 1 4 15 262.00 0.52 -0.568 9 4.15.L
64 2 1 0 227.18 0.47 -0.466 9 1.0.L
65 2 1 1 278.51 0.58 -0.861 9 1.1.L
66 2 1 2 -38.23 0.48 -0.466 9 1.2.L
67 2 1 3 62.61 0.47 -0.495 9 1.3.L
68 2 1 4 209.07 0.49 -0.608 9 1.4.L
69 2 1 5 164.35 0.48 -0.534 9 1.5.L
70 2 1 6 33.05 0.48 -0.531 9 1.6.L
71 2 1 7 468.91 0.48 -0.559 9 1.7.L
72 2 1 8 232.56 0.73 -0.823 9 1.8.L
73 2 1 9 -9999.99 0.00 0.000 37 1.9.L > 10 peaks or no data
74 2 1 10 297.71 1.27 -0.840 7 1.10.L
75 2 1 11 194.00 0.48 -0.495 9 1.11.L
76 2 1 12 52.37 0.48 -0.509 9 1.12.L
77 2 1 13 224.36 0.46 -0.480 9 1.13.L
78 2 1 14 -19.41 0.49 -0.443 9 1.14.L
79 2 1 15 -92.64 0.45 -0.347 9 1.15.L
80 2 2 0 -18.96 0.45 -0.343 9 2.0.L
81 2 2 1 -11.28 0.46 -0.361 9 2.1.L
82 2 2 2 -55.97 0.46 -0.377 9 2.2.L
83 2 2 3 56.49 0.44 -0.351 9 2.3.L
84 2 2 4 66.61 0.45 -0.352 9 2.4.L
85 2 2 5 -254.65 0.44 -0.388 9 2.5.L
86 2 2 6 -19.33 0.44 -0.401 9 2.6.L
87 2 2 7 -47.39 0.46 -0.387 9 2.7.L
88 2 2 8 -35.59 0.44 -0.341 9 2.8.L
89 2 2 9 -171.18 0.45 -0.405 9 2.9.L
90 2 2 10 12.24 0.44 -0.368 9 2.10.L
91 2 2 11 7.99 0.43 -0.375 9 2.11.L
92 2 2 12 -102.26 0.45 -0.339 9 2.12.L
93 2 2 13 -58.76 0.45 -0.161 9 2.13.L
94 2 2 14 -16.78 0.40 -0.209 9 2.14.L
95 2 2 15 54.92 0.41 -0.312 9 2.15.L
96 2 3 0 433.30 0.45 -0.332 9 3.0.L
97 2 3 1 142.86 0.45 -0.372 9 3.1.L
98 2 3 2 114.43 0.46 -0.199 9 3.2.L
99 2 3 3 312.14 0.45 -0.266 9 3.3.L
100 2 3 4 185.36 0.46 -0.364 9 3.4.L
101 2 3 5 137.18 0.46 -0.328 9 3.5.L
102 2 3 6 258.04 0.45 -0.270 9 3.6.L
103 2 3 7 284.53 0.45 -0.260 9 3.7.L
104 2 3 8 115.77 0.46 -0.448 9 3.8.L
105 2 3 9 285.40 0.46 -0.355 9 3.9.L
106 2 3 10 2.38 0.47 -0.331 9 3.10.L
107 2 3 11 28.40 0.47 -0.501 9 3.11.L
108 2 3 12 228.77 0.47 -0.343 9 3.12.L
109 2 3 13 318.35 0.46 -0.379 9 3.13.L
110 2 3 14 76.69 0.45 -0.258 9 3.14.L
111 2 3 15 222.08 0.46 -0.391 9 3.15.L
112 2 4 0 263.39 0.48 -0.267 9 4.0.L
113 2 4 1 -261.43 0.48 -0.353 9 4.1.L
114 2 4 2 -127.19 0.47 -0.301 9 4.2.L
115 2 4 3 23.73 0.48 -0.356 9 4.3.L
116 2 4 4 -51.36 0.48 -0.415 9 4.4.L
117 2 4 5 121.99 0.50 -0.423 9 4.5.L
118 2 4 6 134.29 0.53 -0.386 9 4.6.L
119 2 4 7 -9999.99 0.00 0.000 37 4.7.L > 10 peaks or no data
120 2 4 8 203.54 0.49 -0.387 9 4.8.L
121 2 4 9 340.38 0.51 -0.434 9 4.9.L
122 2 4 10 -9999.99 0.00 0.000 37 4.10.L > 10 peaks or no data
123 2 4 11 129.85 0.48 -0.366 9 4.11.L
124 2 4 12 210.80 0.49 -0.352 9 4.12.L
125 2 4 13 42.06 0.77 -0.318 9 4.13.L
126 2 4 14 171.05 0.48 -0.312 9 4.14.L
127 2 4 15 -32.40 0.47 -0.307 9 4.15.L
128 3 1 0 -519.64 1.60 6.862 3 1.0.L INL > 1%
129 3 1 1 -217.21 1.59 0.926 5 1.1.L
130 3 1 2 -165.60 0.55 0.532 9 1.2.L
131 3 1 3 11.05 0.56 0.604 9 1.3.L
132 3 1 4 5.91 2.23 0.146 3 1.4.L
133 3 1 5 -39.75 0.53 0.630 9 1.5.L
134 3 1 6 -172.29 0.53 0.670 9 1.6.L
135 3 1 7 -325.49 0.54 0.663 9 1.7.L
136 3 1 8 -83.54 0.51 0.694 9 1.8.L
137 3 1 9 -217.62 0.51 0.644 9 1.9.L
138 3 1 10 -183.08 0.51 0.671 9 1.10.L
139 3 1 11 171.84 0.52 0.665 9 1.11.L
140 3 1 12 -156.49 0.50 0.557 9 1.12.L
141 3 1 13 -207.29 0.52 0.583 9 1.13.L
142 3 1 14 -12.61 0.50 0.522 9 1.14.L
143 3 1 15 -210.33 0.49 0.528 9 1.15.L
144 3 2 0 -334.03 0.48 0.572 9 2.0.L
145 3 2 1 -232.98 0.46 0.567 9 2.1.L
146 3 2 2 -139.49 0.48 0.570 9 2.2.L
147 3 2 3 -183.13 0.46 0.605 9 2.3.L
148 3 2 4 -136.91 0.46 0.521 9 2.4.L
149 3 2 5 -86.13 0.47 0.590 9 2.5.L
150 3 2 6 -17.87 0.47 0.587 9 2.6.L
151 3 2 7 -492.32 0.46 0.734 9 2.7.L
152 3 2 8 -134.59 0.46 0.715 9 2.8.L
153 3 2 9 -334.83 0.48 0.564 9 2.9.L
154 3 2 10 -76.65 0.46 0.788 9 2.10.L
155 3 2 11 -1.23 0.47 0.623 9 2.11.L
156 3 2 12 -392.22 0.47 0.563 9 2.12.L
157 3 2 13 -154.27 0.48 0.617 9 2.13.L
158 3 2 14 -197.34 0.50 0.195 8 2.14.L
159 3 2 15 -57.01 0.42 0.571 9 2.15.L
160 3 3 0 -606.06 0.87 10.505 3 3.0.L INL > 1%
161 3 3 1 -3789.71 1.68 2.064 3 3.1.L INL > 1%
162 3 3 2 -96.46 0.50 0.949 9 3.2.L
163 3 3 3 -89.01 0.50 0.720 9 3.3.L
164 3 3 4 -210.86 0.49 0.674 9 3.4.L
165 3 3 5 20.13 0.49 0.643 9 3.5.L
166 3 3 6 -824.38 1.70 12.398 3 3.6.L INL > 1%
167 3 3 7 -569.86 1.48 5.507 3 3.7.L INL > 1%
168 3 3 8 -347.62 1.28 12.958 3 3.8.L INL > 1%
169 3 3 9 -18.29 0.49 0.682 9 3.9.L
170 3 3 10 -6.87 0.49 0.716 9 3.10.L
171 3 3 11 -211.50 1.07 10.153 3 3.11.L INL > 1%
172 3 3 12 -300.73 0.49 0.610 9 3.12.L
173 3 3 13 -278.88 0.48 0.640 9 3.13.L
174 3 3 14 -66.74 0.51 0.501 9 3.14.L
175 3 3 15 41.47 0.53 0.493 9 3.15.L
176 3 4 0 -1198.10 2.48 21.463 3 4.0.L INL > 1%
177 3 4 1 -280.37 0.51 0.505 9 4.1.L
178 3 4 2 -61.89 0.53 0.416 9 4.2.L
179 3 4 3 -32.21 0.48 0.560 9 4.3.L
180 3 4 4 -143.35 0.55 0.558 9 4.4.L
181 3 4 5 -176.09 0.50 0.683 9 4.5.L
182 3 4 6 -112.67 0.49 0.708 9 4.6.L
183 3 4 7 -1929.12 2.29 8.062 3 4.7.L INL > 1%
184 3 4 8 85.28 0.52 0.519 9 4.8.L
185 3 4 9 -177.96 0.50 0.699 9 4.9.L
186 3 4 10 -172.42 0.53 0.503 9 4.10.L
187 3 4 11 -5.35 0.50 0.562 9 4.11.L
188 3 4 12 -123.40 0.50 0.595 9 4.12.L
189 3 4 13 -13.68 0.49 0.443 9 4.13.L
190 3 4 14 -311.86 0.51 0.519 9 4.14.L
191 3 4 15 -20.82 0.54 0.397 9 4.15.L
192 4 1 0 -175.71 0.63 0.632 9 1.0.L
193 4 1 1 -169.28 0.88 0.711 9 1.1.L
194 4 1 2 36.57 0.57 0.588 9 1.2.L
195 4 1 3 -142.43 0.58 0.728 9 1.3.L
196 4 1 4 -60.44 0.59 0.695 9 1.4.L
197 4 1 5 -46.68 0.54 0.670 9 1.5.L
198 4 1 6 -91.09 0.56 0.742 9 1.6.L
199 4 1 7 -244.52 0.57 0.878 9 1.7.L
200 4 1 8 -136.10 0.54 0.846 9 1.8.L
201 4 1 9 -139.78 0.54 0.811 9 1.9.L
202 4 1 10 -189.83 0.54 0.698 9 1.10.L
203 4 1 11 -103.95 0.56 0.697 9 1.11.L
204 4 1 12 -145.52 0.52 0.594 9 1.12.L
205 4 1 13 -77.24 0.51 0.656 9 1.13.L
206 4 1 14 115.73 0.54 0.500 9 1.14.L
207 4 1 15 34.41 0.53 0.546 9 1.15.L
208 4 2 0 12.08 0.51 0.747 9 2.0.L
209 4 2 1 -87.60 0.53 0.548 9 2.1.L
210 4 2 2 165.38 0.51 0.612 9 2.2.L
211 4 2 3 -92.40 0.52 0.679 9 2.3.L
212 4 2 4 38.84 0.51 0.722 9 2.4.L
213 4 2 5 -84.11 0.52 0.836 9 2.5.L
214 4 2 6 67.80 0.50 0.758 9 2.6.L
215 4 2 7 -142.00 0.56 0.634 9 2.7.L
216 4 2 8 -36.78 0.53 0.647 9 2.8.L
217 4 2 9 -14.18 0.50 0.709 9 2.9.L
218 4 2 10 -209.22 0.51 0.787 9 2.10.L
219 4 2 11 -34.54 0.48 0.758 9 2.11.L
220 4 2 12 89.64 0.50 0.640 9 2.12.L
221 4 2 13 86.28 0.53 0.738 9 2.13.L
222 4 2 14 -248.70 0.49 0.580 9 2.14.L
223 4 2 15 -89.65 0.47 0.627 9 2.15.L
224 4 3 0 -541.15 1.02 7.322 3 3.0.L INL > 1%
225 4 3 1 -57.44 0.52 0.690 9 3.1.L
226 4 3 2 -61.68 0.53 0.537 9 3.2.L
227 4 3 3 41.12 0.53 0.504 9 3.3.L
228 4 3 4 72.75 0.50 0.495 9 3.4.L
229 4 3 5 134.73 0.52 0.613 9 3.5.L
230 4 3 6 150.77 0.53 0.597 9 3.6.L
231 4 3 7 -36.75 0.52 0.675 9 3.7.L
232 4 3 8 -628.38 0.80 4.788 3 3.8.L INL > 1%
233 4 3 9 -238.74 0.52 0.659 9 3.9.L
234 4 3 10 1.92 0.50 0.575 9 3.10.L
235 4 3 11 -252.34 0.52 0.561 9 3.11.L
236 4 3 12 52.68 0.51 0.605 9 3.12.L
237 4 3 13 80.91 0.51 0.547 9 3.13.L
238 4 3 14 157.18 0.51 0.553 9 3.14.L
239 4 3 15 -140.31 0.51 0.441 9 3.15.L
240 4 4 0 -137.72 0.52 0.634 9 4.0.L
241 4 4 1 -86.83 0.51 0.641 9 4.1.L
242 4 4 2 70.27 0.50 0.668 9 4.2.L
243 4 4 3 -19.07 0.51 0.573 9 4.3.L
244 4 4 4 -220.03 0.52 0.656 9 4.4.L
245 4 4 5 -197.80 0.52 0.561 9 4.5.L
246 4 4 6 -190.22 0.52 0.709 9 4.6.L
247 4 4 7 -277.14 0.51 0.442 9 4.7.L
248 4 4 8 -195.68 0.51 0.702 9 4.8.L
249 4 4 9 -239.19 0.52 0.731 9 4.9.L
250 4 4 10 -76.81 0.50 0.459 9 4.10.L
251 4 4 11 -25.19 0.52 0.681 9 4.11.L
252 4 4 12 -219.24 0.53 0.587 9 4.12.L
253 4 4 13 -50.33 0.51 0.465 9 4.13.L
254 4 4 14 1.96 0.54 0.538 9 4.14.L
255 4 4 15 -331.97 0.52 0.457 9 4.15.L
256 5 1 0 258.71 0.48 -0.433 9 1.0.L
257 5 1 1 44.40 0.59 -0.711 9 1.1.L
258 5 1 2 145.79 0.47 -0.498 9 1.2.L
259 5 1 3 -2.75 0.48 -0.355 9 1.3.L
260 5 1 4 342.67 0.48 -0.511 9 1.4.L
261 5 1 5 278.31 0.49 -0.489 9 1.5.L
262 5 1 6 117.25 0.47 -0.523 9 1.6.L
263 5 1 7 253.76 0.49 -0.400 9 1.7.L
264 5 1 8 275.29 0.48 -0.305 9 1.8.L
265 5 1 9 87.88 0.47 -0.406 9 1.9.L
266 5 1 10 129.59 0.48 -0.388 9 1.10.L
267 5 1 11 120.29 0.48 -0.426 9 1.11.L
268 5 1 12 180.13 0.47 -0.420 9 1.12.L
269 5 1 13 148.06 0.46 -0.299 9 1.13.L
270 5 1 14 74.49 0.48 -0.360 9 1.14.L
271 5 1 15 21.34 0.46 -0.330 9 1.15.L
273 5 2 1 78.70 0.46 -0.309 9 2.1.L
274 5 2 2 349.48 0.46 -0.289 9 2.2.L
275 5 2 3 -32.10 0.46 -0.364 9 2.3.L
276 5 2 4 -13.87 0.45 -0.232 9 2.4.L
277 5 2 5 154.01 0.47 -0.310 9 2.5.L
278 5 2 6 105.69 0.45 -0.281 9 2.6.L
279 5 2 7 277.13 0.45 -0.246 9 2.7.L
280 5 2 8 -204.23 0.45 -0.327 9 2.8.L
281 5 2 9 -42.14 0.46 -0.276 9 2.9.L
282 5 2 10 44.38 0.45 -0.525 9 2.10.L
284 5 2 12 -54.70 0.44 -0.248 9 2.12.L
285 5 2 13 297.19 0.45 -0.552 9 2.13.L
286 5 2 14 -83.88 0.43 -0.408 9 2.14.L
287 5 2 15 119.39 0.39 -0.541 9 2.15.L
288 5 3 0 -236.27 0.46 -0.869 9 3.0.L
289 5 3 1 -329.49 0.47 -0.283 9 3.1.L
290 5 3 2 -248.64 0.47 -0.348 9 3.2.L
291 5 3 3 -269.61 0.49 -0.859 9 3.3.L
292 5 3 4 9447.04 5.83 -33.252 3 3.4.L INL > 1%
293 5 3 5 -79.92 0.48 -0.288 9 3.5.L
294 5 3 6 -143.18 0.48 -0.384 9 3.6.L
295 5 3 7 53.67 0.47 -0.310 9 3.7.L
296 5 3 8 -291.96 0.46 -0.384 9 3.8.L
297 5 3 9 -303.34 0.48 -0.232 9 3.9.L
298 5 3 10 -176.21 0.49 -0.242 9 3.10.L
299 5 3 11 -132.74 0.93 -0.396 6 3.11.L
300 5 3 12 -80.88 0.47 -0.155 9 3.12.L
301 5 3 13 -136.35 0.46 -0.173 9 3.13.L
302 5 3 14 -29.55 0.46 -0.229 9 3.14.L
303 5 3 15 -653.05 0.95 -0.302 6 3.15.L
... 1217 more lines ...
|
|
407
|
Sat Oct 29 07:26:59 2016 |
TD | AIDA ADC & disc data synchronisation check |
Following analysis of AIDA ADC & disc readout ( see https://elog.ph.ed.ac.uk/AIDA/404 )
changed timestamp resolution from 1us/channel to 20.48us/channel
Offline sort (from disk file)
Attachments 1-3 s1-s32 # ADC data items per FEE64, s100-132 # disc data items per FEE64 (20.48us/channel)
Attachments 4-5 s1000 4 * ( module # - 1 ) + ASIC # versus timestamp (ch 0-95 ADC data, ch 100-195 disc data,
20.48us/channel)
Attachments 6-7 MIDASsort terminal session logs for *offline* sort
Online sort (from TapeServer)
Attachment 8 s1-s32 # ADC data items per FEE64, s100-132 # disc data items per FEE64 (20.48us/channel)
Attachments 9-10 s1000 4 * ( module # - 1 ) + ASIC # versus timestamp (ch 0-95 ADC data, ch 100-195 disc data,
20.48us/channel)
Attachments 11-12 MIDASsort terminal session logs for *online* sort
Attachment 13 MIDASsort FORTRAN sort routine sync.f
Attachment 14 Spectrum titles for the above sort routine
Note
1) data is discontinuous as a function of timestamp because we are sampling buffers
from the TapeServer rather than sorting all data as above
2) a low rate of timewarps is reported which appears to be an artifact of the buffer
sampling - no timewarps reported by analyses of the corresponding data files
|
| Attachment 1: 100.png
|
|
| Attachment 2: 101.png
|
|
| Attachment 3: 103.png
|
|
| Attachment 4: 104.png
|
|
| Attachment 5: 105.png
|
|
| Attachment 6: 106.png
|
|
| Attachment 7: 107.png
|
|
| Attachment 8: 110.png
|
|
| Attachment 9: 112.png
|
|
| Attachment 10: 113.png
|
|
| Attachment 11: 116.png
|
|
| Attachment 12: 117.png
|
|
| Attachment 13: sync.f
|
*trigger
128
*oned
1..32 s 65536
101..132 s 65536
*twod
1000 s 4096 4096
*vars
*sort
C----67---------------------------------------------------------------72------80
SUBROUTINE init
IMPLICIT none
SAVE
C
C External functions
C
EXTERNAL dtime
C
INTEGER and, lshift, rshift
C
LOGICAL btest
C
REAL float, secnds
C
C Parameter variables
C
INTEGER max
PARAMETER (max = 2048)
C
C Local variables
C
INTEGER adc_data, asic, ch, channel, channel_ident
INTEGER count, data(0:4095), disc
INTEGER*8 dt
INTEGER events, events_old
INTEGER*8 e_time, e_time_old
INTEGER i
INTEGER*2 i2(2), i2_2(4)
INTEGER i4, i4_2(2)
INTEGER*8 i8
INTEGER ierr, information, information_index, int
INTEGER invalid_id, items, items_old, j, j1, j1_old, j2, j2_old, k
INTEGER l, mbs_data(0:3), module, m_disc
INTEGER range, time_warp, total
INTEGER*8 ts
INTEGER ts28
INTEGER ts48
INTEGER*8 ts_old
INTEGER type, w(0:31)
C
LOGICAL first, hit(0:4095)
C
REAL c(0:7), delta_t, gain(0:max-1), offset(0:max-1)
REAL t1, t2, t2_old
C
C Namelists
C
NAMELIST /variables/ gain, offset, c, w
C
C Common variables
C
INTEGER*2 gdata(0:max-1)
C
COMMON /fdata/ gdata
C
C Common variables
C
INTEGER*2 gid(0:max-1)
C
COMMON /fid/ gid
C
C Common variables
C
INTEGER mult
C
COMMON /fmult/ mult
C
EQUIVALENCE ( i8, i4_2(1) )
EQUIVALENCE ( i4, i2(1) )
C
C----67---------------------------------------------------------------72------80
WRITE ( 6, * ) ' *** AIDA @ RIKEN - sync check - October 2016'
WRITE ( 6, * ) ' *** Entry init commences'
C Initialise counters
events = 0
events_old = 0
time_warp = 0
invalid_id = 0
C Initialise event data
DO i = 0, 2047
data( i ) = 0
hit( i ) = .FALSE.
ENDDO
first = .true.
ts_old = 0
e_time_old = 0
count = 0
total = 0
DO i = 0, 127
gain( i ) = 1.0
offset( i ) = 0.0
ENDDO
DO i = 0, 31
w( i ) = 0
ENDDO
DO i = 0, 7
c( i ) = 1.0
ENDDO
C Initialise time
t1 = SECNDS(0.0)
C Read program variables via NAMELIST I/O
OPEN( 1, FILE = '/home/td/GREAT/variables.dat',
+ IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** OPEN I/O error:', ierr
RETURN
ENDIF
READ( 1, NML = variables, IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** READ I/O error:', ierr
ENDIF
CLOSE( 1, IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** CLOSE I/O error:', ierr
RETURN
ENDIF
C Display program variables
DO i = 0, 127, 8
WRITE( 6, 9001 ) i, i+7, ( gain( j ), j = i, i+7 )
ENDDO
DO i = 0, 127, 8
WRITE( 6, 9002 ) i, i+7, ( offset( j ), j = i, i+7 )
ENDDO
DO i = 0, 7, 8
WRITE( 6, 9003 ) i, i+7, ( c(j), j = 1, 8 )
ENDDO
DO i = 0, 31, 8
WRITE( 6, 9004 ) i, i+7, ( w(j), j = i, i+7 )
ENDDO
WRITE ( 6, * ) ' *** Entry init ends'
RETURN
C----67---------------------------------------------------------------72------80
ENTRY sortin
items = items + 1
IF ( MOD( items, 10000000 ).EQ.0 ) THEN
t2 = SECNDS( t1 )
delta_t = t2 - t2_old
WRITE( 6, 9010 ) items, FLOAT( items - items_old ) / delta_t,
+ events, FLOAT( events - events_old ) / delta_t
items_old = items
events_old = events
t2_old = t2
ENDIF
C----67---------------------------------------------------------------72------80
C Event data
C For Linux/x64 & Windows/x86 least significant 16-bit word i2(1)
C For Solaris/SPARC least significant 16-bit word i2(2)
C GREAT 3.2.1 format
C
C Other information
C gid[0]=-1
C gdata[0]=module number
C gdata[1]=information type (2=Pause, 3=Resume, 4=SYNC100, 6=FEE64 disc etc)
C gdata[2]=information field (bits 16-19)
C gdata[3]=information field (bits 0-15)
C gdata[4]=time stamp (bits 16-27)
C gdata[5]=time stamp (bits 0-15)
C
C ADC data format
C
C gid[0]=channel ident (FEE64 module bits 6-11, channel bits 0-5)
C gdata[0]=fail/veto bits (AIDA: fail=0, veto=0 LEC/MEC, veto=1 HEC)
C gdata[1]=?
C gdata[2]=ADC data
C gdata[3]=time stamp (bits 16-27)
C gdata[4]=time stamp (bits 0-15)
C----67---------------------------------------------------------------72------80
C gid = - 1 Other information
IF ( gid(0).EQ.-1 ) THEN
i2(2) = 0
i2(1) = gdata(0)
module = AND( i4, Z'0000003f' )
i2(1) = gdata(1)
type = AND( i4, Z'0000000f' )
i2(2) = gdata(2)
i2(1) = gdata(3)
information = AND( i4, Z'000fffff' )
i2(2) = gdata(4)
i2(1) = gdata(5)
ts28 = AND( i4, Z'0fffffff' )
IF ( type.EQ.2 ) THEN
C----67---------------------------------------------------------------72------80
C PAUSE timestamp
ts48 = information
i8 = 0
i4_2( 1 ) = ts48
ts = LSHIFT( i8, 28 )
i8 = 0
i4_2(1) = ts28
ts = ts + i8
ELSEIF( type.EQ.3 ) THEN
C----67---------------------------------------------------------------72------80
C RESUME timestamp
ts48 = information
i8 = 0
i4_2( 1 ) = ts48
ts = LSHIFT( i8, 28 )
i8 = 0
i4_2(1) = ts28
ts = ts + i8
ELSEIF( type.EQ.4 ) THEN
C----67---------------------------------------------------------------72------80
C SYNC100 timestamp
ts48 = information
i8 = 0
i4_2( 1 ) = ts48
ts = LSHIFT( i8, 28 )
i8 = 0
i4_2(1) = ts28
ts = ts + i8
ELSEIF( type.EQ.6 ) THEN
C----67---------------------------------------------------------------72------80
C FEE64 discriminator
i8 = 0
IF ( ts28.LE.Z'00000A0' ) THEN
i4_2( 1 ) = ts48 + 1
ELSE
i4_2( 1 ) = ts48
ENDIF
ts = LSHIFT( i8, 28 )
i8 = 0
i4_2(1) = ts28
ts = ts + i8
disc = AND( information, Z'0000ffff' )
asic = AND( RSHIFT( information, 16 ), Z'0000000f' )
m_disc = 0
DO i = 0, 15
IF ( btest( disc, i ) ) THEN
m_disc = m_disc + 1
ENDIF
ENDDO
C Increment ts spectra per FEE64 module
j1 = MOD( RSHIFT( ts, 11 ), 65536 )
CALL incv1d( module + 100, j1, m_disc)
C Increment ts spectra per FEE64 module
j2 = MOD( RSHIFT( ts, 11 ), 65536 )
ch = ( ( module - 1 ) * 4 ) + asic + 100
CALL incv2d( 1000, ch, j2, m_disc )
... 186 more lines ...
|
| Attachment 14: titles.dat
|
s1 nnaida1: ADC data items (20us/ch)
s2 nnaida2: ADC data items (20us/ch)
s3 nnaida3: ADC data items (20us/ch)
s4 nnaida4: ADC data items (20us/ch)
s5 nnaida5: ADC data items (20us/ch)
s6 nnaida6: ADC data items (20us/ch)
s7 nnaida7: ADC data items (20us/ch)
s8 nnaida8: ADC data items (20us/ch)
s9 nnaida9: ADC data items (20us/ch)
s10 nnaida10: ADC data items (20us/ch)
s11 nnaida11: ADC data items (20us/ch)
s12 nnaida12: ADC data items (20us/ch)
s13 nnaida13: ADC data items (20us/ch)
s14 nnaida14: ADC data items (20us/ch)
s15 nnaida15: ADC data items (20us/ch)
s16 nnaida16: ADC data items (20us/ch)
s17 nnaida17: ADC data items (20us/ch)
s18 nnaida18: ADC data items (20us/ch)
s19 nnaida19: ADC data items (20us/ch)
s20 nnaida20: ADC data items (20us/ch)
s21 nnaida21: ADC data items (20us/ch)
s22 nnaida22: ADC data items (20us/ch)
s23 nnaida23: ADC data items (20us/ch)
s24 nnaida24: ADC data items (20us/ch)
s25 nnaida25: ADC data items (20us/ch)
s26 nnaida26: ADC data items (20us/ch)
s27 nnaida27: ADC data items (20us/ch)
s28 nnaida28: ADC data items (20us/ch)
s29 nnaida29: ADC data items (20us/ch)
s30 nnaida30: ADC data items (20us/ch)
s31 nnaida31: ADC data items (20us/ch)
s32 nnaida32: ADC data items (20us/ch)
s101 nnaida1: Disc data items (20us/ch)
s102 nnaida2: Disc data items (20us/ch)
s103 nnaida3: Disc data items (20us/ch)
s104 nnaida4: Disc data items (20us/ch)
s105 nnaida5: Disc data items (20us/ch)
s106 nnaida6: Disc data items (20us/ch)
s107 nnaida7: Disc data items (20us/ch)
s108 nnaida8: Disc data items (20us/ch)
s109 nnaida9: Disc data items (20us/ch)
s110 nnaida10: Disc data items (20us/ch)
s111 nnaida11: Disc data items (20us/ch)
s112 nnaida12: Disc data items (20us/ch)
s113 nnaida13: Disc data items (20us/ch)
s114 nnaida14: Disc data items (20us/ch)
s115 nnaida15: Disc data items (20us/ch)
s116 nnaida16: Disc data items (20us/ch)
s117 nnaida17: Disc data items (20us/ch)
s118 nnaida18: Disc data items (20us/ch)
s119 nnaida19: Disc data items (20us/ch)
s120 nnaida20: Disc data items (20us/ch)
s121 nnaida21: Disc data items (20us/ch)
s122 nnaida22: Disc data items (20us/ch)
s123 nnaida23: Disc data items (20us/ch)
s124 nnaida24: Disc data items (20us/ch)
s125 nnaida25: Disc data items (20us/ch)
s126 nnaida26: Disc data items (20us/ch)
s127 nnaida27: Disc data items (20us/ch)
s128 nnaida28: Disc data items (20us/ch)
s129 nnaida29: Disc data items (20us/ch)
s130 nnaida30: Disc data items (20us/ch)
s131 nnaida31: Disc data items (20us/ch)
s132 nnaida32: Disc data items (20us/ch)
s1000 4*(module # - 1) + asic # (0-95 ADC; 100-195 Disc) versus timestamp (20us/ch)
|
|
105
|
Sat May 9 11:28:32 2015 |
TD | AIDA DSSSD dis-assembly |
| AIDA DSSSD #1-3 stack disassembled without problem. DSSSDs returned to boxes
in the BF3 AIDA storage area.
Attachments 1 & 2 show DSSSD #1 (3131-11) - spot the difference! |
| Attachment 1: IMG_2922.JPG
|
|
| Attachment 2: IMG_2929.JPG
|
|
|
193
|
Sun May 1 07:59:08 2016 |
CG,PV,TD | AIDA Detector Configuration |
UPSTREAM
Detector Serial Operating CAEN N1519 CAEN N1519 Bias FEE64 Bias Config
# # Bias (V) Addr # channel # Cable Core Braid
1 3058-2 +100 0 0 1 nnaida25, 27, 30 & 32 nnaida27 nnaida29 (LK5)
2 3058-3 +100 0 1 2 nnaida18, 20, 22 & 23 nnaida20 nnaida22 (LK1)
3 3058-4 +100 0 2 3 nnaida17, 19, 21 & 24 nnaida19 nnaida21 (LK5)
4 3058-5 +100 0 3 4 nnaida10, 12, 14 & 15 nnaida12 nnaida14 (LK1)
5 3058-6 +100 1 0 5 nnaida9, 11, 13 & 16 nnaida11 nnaida13 (LK5)
6 3058-7 +100 1 1 6 nnaida2, 4, 6 & 7 nnaida4 nnaida6 (LK1)
7 2977-15 +100 1 2 7 nnaida1, 3, 5 & 8 nnaida3 nnaida5 (LK5)
8 1 3 8
DOWNSTREAM
Notes
_____
MSL type BB18 PCB ground links (LK3 & LK7) not fitted
To be checked |
|
195
|
Mon May 2 07:37:03 2016 |
TD | AIDA FEE layout |
UP
nnaida25
nnaida26
nnaida1 nnaida9 nnaida17
LEFT nnaida2 nnaida10 nnaida18 RIGHT
nnaida31 nnaida23 nnaida15 nnaida7 nnaida3 nnaida11 nnaida19 nnaida27
nnaida32 nnaida24 nnaida16 nnaida8 nnaida4 nnaida12 nnaida20 nnaida28
nnaida5 nnaida13 nnaida21
nnaida6 nnaida14 nnaida22
nnaida29
nnaida30
DOWN
<LOOKING UPSTREAM>
LEFT-RIGHT n+n ohmic strips
UP-DOWN p+n junction strips |
|
739
|
Wed Aug 22 11:38:11 2018 |
OH, TD | AIDA GSI Setup Noise Tests |
Currently seems to be a problem with the memory check in the system wide checks that produces the message shown
- attachment 1
DAQ is being run with the following options - attachment 2 and 3
The PSU Temperature readout in aida07 appears to not be working. Shows a permanent value of 160 degC - attachment 4
Water inlet and outlet feel cold so believe it is an artiface
aida07 also appears to quite often take longer to mount than the others. Often coming in 5 minutes later than them.
Only tested aida01 - aida04 for noise as we lacked the required HDMI type c cables to set up a full MACB branch
structure.
We appear to have considerable noise issues in the FEE modules with adapter boards on but no DSSD cables
connected but test input loop and pulsar connected.
The pulsar appears to be the circuit of doom for this noise. With all test input ports connected to a pulsar
chain each FEE is seeing in the region of 800k rate of good events with discriminator thresholds set to 255.
Removing the pulsar cable from the end FEE but leaving the chain in place reduces this to around 500k.
Grounding an adapter board to the copper cooling plate also further reduces this noise somewhat but still leaves
rates of around 300k.
If an adapter board is isolated from the chain so that it has nothing connected to it the rate drops to around
300-400 which is just the rate of the sync pulses.
For the following screenshots aida01 and aida02 are isolated adapter boards.
aida03 and aida04 are connected via lemo cables via the test input to other FEE modules in their chains.
Waveforms for the 4 FEEs - attachment 5-8
Full statistics for the 4 FEEs - attachment 9-12
Good events comparison - attachment 13
It appears we need to provide a low resistance path between the FEE cooling plates like we do in RIKEN.
Currently the measured resistance between FEE 6 and 10 is around 2 ohm.
Also we may need to isolate the pulsar signals themselves
A potential difference of 5mV was also measured between the chassis of the NIM modules and the cooling plates.
Resistance was 0ohm when the power was on. |
| Attachment 1: 180821_1530Check.png
|
|
| Attachment 2: 20180821_1308_ASICControl.png
|
|
| Attachment 3: 20180821_1308_ASICOptions.png
|
|
| Attachment 4: 20180821_1308_FEETemp.png
|
|
| Attachment 5: 180822_1130_aida3W.png
|
|
| Attachment 6: 180822_1130_aida4W.png
|
|
| Attachment 7: 180822_1130_aida1W.png
|
|
| Attachment 8: 180822_1130_aida2W.png
|
|
| Attachment 9: 180822_1331_aida04stats.png
|
|
| Attachment 10: 180822_1230_aida01Stats.png
|
|
| Attachment 11: 180822_1230_aida02Stats.png
|
|
| Attachment 12: 180822_1231_aida03Stats.png
|
|
| Attachment 13: 180822_1229_GoodEvents.png
|
|
|
740
|
Wed Aug 22 13:50:30 2018 |
OH, TD, Reply by PCS | AIDA GSI Setup Noise Tests |
> Currently seems to be a problem with the memory check in the system wide checks that produces the message shown
> - attachment 1
>
> DAQ is being run with the following options - attachment 2 and 3
>
> The PSU Temperature readout in aida07 appears to not be working. Shows a permanent value of 160 degC - attachment 4
> Water inlet and outlet feel cold so believe it is an artiface
> aida07 also appears to quite often take longer to mount than the others. Often coming in 5 minutes later than them.
>
> Only tested aida01 - aida04 for noise as we lacked the required HDMI type c cables to set up a full MACB branch
> structure.
>
> We appear to have considerable noise issues in the FEE modules with adapter boards on but no DSSD cables
> connected but test input loop and pulsar connected.
> The pulsar appears to be the circuit of doom for this noise. With all test input ports connected to a pulsar
> chain each FEE is seeing in the region of 800k rate of good events with discriminator thresholds set to 255.
> Removing the pulsar cable from the end FEE but leaving the chain in place reduces this to around 500k.
>
> Grounding an adapter board to the copper cooling plate also further reduces this noise somewhat but still leaves
> rates of around 300k.
>
> If an adapter board is isolated from the chain so that it has nothing connected to it the rate drops to around
> 300-400 which is just the rate of the sync pulses.
>
> For the following screenshots aida01 and aida02 are isolated adapter boards.
> aida03 and aida04 are connected via lemo cables via the test input to other FEE modules in their chains.
> Waveforms for the 4 FEEs - attachment 5-8
> Full statistics for the 4 FEEs - attachment 9-12
> Good events comparison - attachment 13
>
> It appears we need to provide a low resistance path between the FEE cooling plates like we do in RIKEN.
> Currently the measured resistance between FEE 6 and 10 is around 2 ohm.
>
> Also we may need to isolate the pulsar signals themselves
>
> A potential difference of 5mV was also measured between the chassis of the NIM modules and the cooling plates.
> Resistance was 0ohm when the power was on.
Re:- Memory check problem..... the required log file is not at /MIDAS/XilinxLinux/...... The file is a log file placed
in the FEE64 root file system. The code will be altered in time to reflect the new location by using a local variable.
Re:- aida07. This module should be urgently removed and sent back to Daresbury for repair. This measurement could be
indicative of the worse problems with this module.
Re:- Earthing. Please could you add some photos of the installation. ( apologies if they are already here ;-) If I
recall it is worth adding a low resistance connection ( big copper braid ) from the NIM bin to the adaptor board earths. |
|
886
|
Wed Aug 9 14:40:28 2023 |
Carole, Nic, Jeroen | AIDA HV SUPPLY & PULSER TEST |
Tests with the HV supply (CAEN N1419ET) and Pulse Generator ( BNC PB-5 ) in the detector lab on the crate behind the DEGAS detectors, carried out the 9th August 2023
Both modules were plugged
Test 1: pulse generetor on 2 Hz
- DC, 50 ohm - HV OFF - attachment 1
- DC, 50 ohm - HV OFF, Zoom on the noise - attachment 2
- DC, 50 ohm - HV 50 V, Zoom on the noise - attachment 3
Test 2: HV supply Channel 1 - CORE and 2 - BRAID, pulse generator still on
- AC 1 Mohm - HV OFF - attachment 4
- AC 1 Mohm - HV 50 V - attachment 5
No differences were observed between crate OFF, HV OFF and HV 50 V. An important periodic noise (green on the pictures) was observed and was significantly smaller when unpluging the HV module from the crate. The thickness of the baseline noise seems to be comparable to entry 882, attachment 33-35.
|
| Attachment 1: AIDA_PulserTest_0908_FullPulse.png
|
|
| Attachment 2: AIDA_PulserTest_09.08_5mV_10us_HVOFF.png
|
|
| Attachment 3: AIDA_PulserTest_0908_10mV_10us_50HV.png
|
|
| Attachment 4: HV_0V_090823_1500_wPulser.png
|
|
| Attachment 5: HV_-50V_090823_1500_wPulser.png
|
|
|
927
|
Wed Nov 22 14:52:43 2023 |
NH | AIDA Pulser Calibration |
Connect pulser to all p+n FEEs
Turn on pulser, 100 Hz (attachment 3 for settings), rates OK (attachment 1)
1 minute at 10V.. 9V.. 1V (5X atten)
Most FEEs OK (attachment 2), aida07 and aida08 weird?
FILE: PULSER21NOV23/R4
Check in S4, one pulser LEMO not in fully, reseat and try again
File R5... much better! (attachment 4) |
| Attachment 1: Screenshot_from_2023-11-22_15-18-08.png
|
|
| Attachment 2: Screenshot_from_2023-11-22_15-31-43.png
|
|
| Attachment 3: Screenshot_from_2023-11-22_15-21-34.png
|
|
| Attachment 4: Screenshot_from_2023-11-22_16-05-33.png
|
|
|
108
|
Fri May 22 11:14:21 2015 |
TD | AIDA T9 test bed - nnaida11 DAQ stall |
AIDA T9 test bed
nnaida11 DAQ stall (0 AIDA SYNCs) at DAQ GO. Merger not in use. Fixed by STOP/GO cycle.
Attachment 1 - FEE64 firmware revision |
| Attachment 1: 1.png
|
|
|
201
|
Tue May 3 15:45:17 2016 |
TD | AIDA Temperatures Log |
AIDA temperatures (ASIC, Virtex, PSU) are recorded in the file:
/MIDAS/log/temperatures.txt |
| Attachment 1: Temperatures.txt
|
Tue May 03 16:25:06 JST 2016 nnaida1 61.38 32.19 60.38
Tue May 03 16:25:06 JST 2016 nnaida2 59.25 32.31 61.69
Tue May 03 16:25:07 JST 2016 nnaida3 64.75 33.44 49.94
Tue May 03 16:25:07 JST 2016 nnaida4 69.25 39.19 54.44
Tue May 03 16:25:07 JST 2016 nnaida5 64.12 32.88 55.25
Tue May 03 16:25:07 JST 2016 nnaida6 66.94 37.94 53.12
Tue May 03 16:25:08 JST 2016 nnaida7 62.44 31.56 0.00
Tue May 03 16:25:08 JST 2016 nnaida8 61.12 31.38 49.38
Tue May 03 16:25:08 JST 2016 nnaida9 65.44 32.00 55.19
Tue May 03 16:25:08 JST 2016 nnaida10 65.62 34.94 65.69
Tue May 03 16:25:09 JST 2016 nnaida11 64.69 33.88 52.19
Tue May 03 16:25:09 JST 2016 nnaida12 72.25 44.94 52.31
Tue May 03 16:25:09 JST 2016 nnaida13 62.12 31.50 50.75
Tue May 03 16:25:10 JST 2016 nnaida14 60.56 32.06 51.62
Tue May 03 16:25:10 JST 2016 nnaida15 60.69 31.25 0.00
Tue May 03 16:25:10 JST 2016 nnaida16 57.25 31.06 50.31
Tue May 03 16:25:10 JST 2016 nnaida17 56.31 30.69 54.94
Tue May 03 16:25:11 JST 2016 nnaida18 61.00 32.56 52.00
Tue May 03 16:25:11 JST 2016 nnaida19 64.62 34.31 57.44
Tue May 03 16:25:11 JST 2016 nnaida20 72.25 42.44 55.56
Tue May 03 16:25:12 JST 2016 nnaida21 64.44 30.94 47.94
Tue May 03 16:25:12 JST 2016 nnaida22 60.12 31.88 46.00
Tue May 03 16:25:12 JST 2016 nnaida23 62.19 32.56 0.00
Tue May 03 16:25:12 JST 2016 nnaida24 65.62 34.25 53.25
Tue May 03 16:25:13 JST 2016 nnaida25 57.69 30.00 58.44
Tue May 03 16:25:13 JST 2016 nnaida26 60.81 30.12 56.31
Tue May 03 16:25:13 JST 2016 nnaida27 61.12 32.12 50.88
Tue May 03 16:25:13 JST 2016 nnaida28 65.94 32.69 0.00
Tue May 03 16:25:14 JST 2016 nnaida29 59.50 29.31 53.19
Tue May 03 16:25:14 JST 2016 nnaida30 60.50 34.75 55.06
Tue May 03 16:25:14 JST 2016 nnaida31 59.12 30.25 47.06
Tue May 03 16:25:15 JST 2016 nnaida32 61.50 31.31 51.88
Tue May 03 16:26:15 JST 2016 nnaida1 61.38 32.19 60.31
Tue May 03 16:26:15 JST 2016 nnaida2 59.31 32.25 61.75
Tue May 03 16:26:15 JST 2016 nnaida3 64.75 33.44 49.88
Tue May 03 16:26:16 JST 2016 nnaida4 69.31 39.19 54.44
Tue May 03 16:26:16 JST 2016 nnaida5 64.12 32.88 55.38
Tue May 03 16:26:16 JST 2016 nnaida6 66.94 37.88 53.25
Tue May 03 16:26:16 JST 2016 nnaida7 62.44 31.62 0.00
Tue May 03 16:26:17 JST 2016 nnaida8 61.19 31.31 49.38
Tue May 03 16:26:17 JST 2016 nnaida9 65.44 32.06 55.25
Tue May 03 16:26:17 JST 2016 nnaida10 65.62 34.94 65.69
Tue May 03 16:26:18 JST 2016 nnaida11 64.62 33.88 52.25
Tue May 03 16:26:18 JST 2016 nnaida12 72.19 45.12 52.25
Tue May 03 16:26:18 JST 2016 nnaida13 62.12 31.56 50.75
Tue May 03 16:26:18 JST 2016 nnaida14 60.50 32.12 51.69
Tue May 03 16:26:19 JST 2016 nnaida15 60.75 31.25 0.00
Tue May 03 16:26:19 JST 2016 nnaida16 57.31 31.12 50.31
Tue May 03 16:26:19 JST 2016 nnaida17 56.31 30.81 54.94
Tue May 03 16:26:20 JST 2016 nnaida18 61.06 32.50 52.06
Tue May 03 16:26:20 JST 2016 nnaida19 64.62 34.38 57.50
Tue May 03 16:26:20 JST 2016 nnaida20 72.19 42.44 55.62
Tue May 03 16:26:20 JST 2016 nnaida21 64.44 30.88 48.00
Tue May 03 16:26:21 JST 2016 nnaida22 60.06 31.94 45.88
Tue May 03 16:26:21 JST 2016 nnaida23 62.12 32.44 0.00
Tue May 03 16:26:21 JST 2016 nnaida24 65.75 34.25 53.19
Tue May 03 16:26:21 JST 2016 nnaida25 57.69 30.06 58.50
Tue May 03 16:26:22 JST 2016 nnaida26 60.81 29.94 56.31
Tue May 03 16:26:22 JST 2016 nnaida27 61.19 32.12 51.00
Tue May 03 16:26:22 JST 2016 nnaida28 65.94 32.75 0.00
Tue May 03 16:26:23 JST 2016 nnaida29 59.50 29.31 53.12
Tue May 03 16:26:23 JST 2016 nnaida30 60.50 34.75 55.00
Tue May 03 16:26:23 JST 2016 nnaida31 59.06 30.31 47.12
Tue May 03 16:26:23 JST 2016 nnaida32 61.44 31.25 51.94
Tue May 03 16:27:24 JST 2016 nnaida1 61.31 32.19 60.31
Tue May 03 16:27:24 JST 2016 nnaida2 59.25 32.19 61.75
Tue May 03 16:27:24 JST 2016 nnaida3 64.75 33.44 49.94
Tue May 03 16:27:25 JST 2016 nnaida4 69.31 39.12 54.44
Tue May 03 16:27:25 JST 2016 nnaida5 64.12 32.88 55.31
Tue May 03 16:27:25 JST 2016 nnaida6 67.00 37.94 53.19
Tue May 03 16:27:25 JST 2016 nnaida7 62.38 31.56 0.00
Tue May 03 16:27:26 JST 2016 nnaida8 61.12 31.44 49.38
Tue May 03 16:27:26 JST 2016 nnaida9 65.44 32.06 55.31
Tue May 03 16:27:26 JST 2016 nnaida10 65.56 34.94 65.69
Tue May 03 16:27:27 JST 2016 nnaida11 64.69 33.81 52.19
Tue May 03 16:27:27 JST 2016 nnaida12 72.31 45.00 52.25
Tue May 03 16:27:27 JST 2016 nnaida13 62.12 31.56 50.75
Tue May 03 16:27:27 JST 2016 nnaida14 60.50 32.06 51.69
Tue May 03 16:27:28 JST 2016 nnaida15 60.69 31.31 0.00
Tue May 03 16:27:28 JST 2016 nnaida16 57.31 31.12 50.25
Tue May 03 16:27:28 JST 2016 nnaida17 56.31 30.75 55.00
Tue May 03 16:27:28 JST 2016 nnaida18 61.06 32.50 51.94
Tue May 03 16:27:29 JST 2016 nnaida19 64.62 34.31 57.44
Tue May 03 16:27:29 JST 2016 nnaida20 72.19 42.50 55.62
Tue May 03 16:27:29 JST 2016 nnaida21 64.50 30.94 47.88
Tue May 03 16:27:30 JST 2016 nnaida22 60.12 31.94 46.00
Tue May 03 16:27:30 JST 2016 nnaida23 62.12 32.50 0.00
Tue May 03 16:27:30 JST 2016 nnaida24 65.69 34.31 53.25
Tue May 03 16:27:30 JST 2016 nnaida25 57.75 29.94 58.50
Tue May 03 16:27:31 JST 2016 nnaida26 60.75 30.00 56.38
Tue May 03 16:27:31 JST 2016 nnaida27 61.19 32.12 51.00
Tue May 03 16:27:31 JST 2016 nnaida28 65.94 32.69 0.00
Tue May 03 16:27:32 JST 2016 nnaida29 59.44 29.25 53.12
Tue May 03 16:27:32 JST 2016 nnaida30 60.50 34.75 55.00
Tue May 03 16:27:32 JST 2016 nnaida31 59.12 30.31 47.06
Tue May 03 16:27:32 JST 2016 nnaida32 61.50 31.25 51.88
Tue May 03 16:28:33 JST 2016 nnaida1 61.38 32.31 60.31
Tue May 03 16:28:33 JST 2016 nnaida2 59.31 32.25 61.75
Tue May 03 16:28:33 JST 2016 nnaida3 64.75 33.38 49.88
Tue May 03 16:28:33 JST 2016 nnaida4 69.25 39.25 54.38
Tue May 03 16:28:34 JST 2016 nnaida5 64.12 32.81 55.31
Tue May 03 16:28:34 JST 2016 nnaida6 67.00 37.94 53.25
Tue May 03 16:28:34 JST 2016 nnaida7 62.38 31.56 0.00
Tue May 03 16:28:35 JST 2016 nnaida8 61.19 31.38 49.44
Tue May 03 16:28:35 JST 2016 nnaida9 65.50 32.06 55.06
Tue May 03 16:28:35 JST 2016 nnaida10 65.56 34.94 65.62
Tue May 03 16:28:35 JST 2016 nnaida11 64.62 33.88 52.19
Tue May 03 16:28:36 JST 2016 nnaida12 72.25 44.81 52.31
Tue May 03 16:28:36 JST 2016 nnaida13 62.00 31.56 50.75
Tue May 03 16:28:36 JST 2016 nnaida14 60.50 32.12 51.56
Tue May 03 16:28:37 JST 2016 nnaida15 60.69 31.19 0.00
Tue May 03 16:28:37 JST 2016 nnaida16 57.31 31.12 50.31
Tue May 03 16:28:37 JST 2016 nnaida17 56.31 30.75 54.94
Tue May 03 16:28:37 JST 2016 nnaida18 61.00 32.56 52.06
Tue May 03 16:28:38 JST 2016 nnaida19 64.62 34.25 57.44
Tue May 03 16:28:38 JST 2016 nnaida20 72.19 42.44 55.50
Tue May 03 16:28:38 JST 2016 nnaida21 64.50 30.94 47.94
Tue May 03 16:28:39 JST 2016 nnaida22 60.12 31.88 45.88
Tue May 03 16:28:39 JST 2016 nnaida23 62.19 32.50 0.00
Tue May 03 16:28:39 JST 2016 nnaida24 65.69 34.19 53.19
Tue May 03 16:28:39 JST 2016 nnaida25 57.62 29.94 58.50
Tue May 03 16:28:40 JST 2016 nnaida26 60.88 30.06 56.38
Tue May 03 16:28:40 JST 2016 nnaida27 61.19 32.06 51.06
Tue May 03 16:28:40 JST 2016 nnaida28 65.94 32.75 0.00
Tue May 03 16:28:40 JST 2016 nnaida29 59.50 29.25 53.19
Tue May 03 16:28:41 JST 2016 nnaida30 60.50 34.69 55.06
Tue May 03 16:28:41 JST 2016 nnaida31 59.06 30.31 47.12
Tue May 03 16:28:41 JST 2016 nnaida32 61.50 31.44 51.94
Tue May 03 16:29:42 JST 2016 nnaida1 61.56 32.38 60.31
Tue May 03 16:29:42 JST 2016 nnaida2 59.50 32.31 61.75
Tue May 03 16:29:42 JST 2016 nnaida3 64.94 33.44 49.81
Tue May 03 16:29:43 JST 2016 nnaida4 69.44 39.19 54.38
Tue May 03 16:29:43 JST 2016 nnaida5 64.31 32.81 55.25
Tue May 03 16:29:43 JST 2016 nnaida6 67.12 38.00 53.12
Tue May 03 16:29:43 JST 2016 nnaida7 62.56 31.62 0.00
Tue May 03 16:29:44 JST 2016 nnaida8 61.38 31.38 49.50
Tue May 03 16:29:44 JST 2016 nnaida9 65.62 32.06 55.19
Tue May 03 16:29:44 JST 2016 nnaida10 65.75 35.00 65.62
Tue May 03 16:29:45 JST 2016 nnaida11 64.88 33.81 52.19
Tue May 03 16:29:45 JST 2016 nnaida12 72.44 45.12 52.25
Tue May 03 16:29:45 JST 2016 nnaida13 62.38 31.50 50.81
Tue May 03 16:29:46 JST 2016 nnaida14 60.69 32.12 51.62
Tue May 03 16:29:46 JST 2016 nnaida15 60.94 31.25 0.00
Tue May 03 16:29:46 JST 2016 nnaida16 57.56 31.19 50.25
Tue May 03 16:29:46 JST 2016 nnaida17 56.44 30.75 54.88
Tue May 03 16:29:47 JST 2016 nnaida18 61.25 32.50 52.00
Tue May 03 16:29:47 JST 2016 nnaida19 64.75 34.44 57.44
Tue May 03 16:29:47 JST 2016 nnaida20 72.31 42.50 55.62
Tue May 03 16:29:48 JST 2016 nnaida21 64.69 30.94 48.00
Tue May 03 16:29:48 JST 2016 nnaida22 60.25 31.94 45.94
Tue May 03 16:29:48 JST 2016 nnaida23 62.44 32.44 0.00
Tue May 03 16:29:49 JST 2016 nnaida24 65.88 34.31 53.38
Tue May 03 16:29:49 JST 2016 nnaida25 57.94 29.94 58.50
Tue May 03 16:29:49 JST 2016 nnaida26 61.00 30.06 56.31
Tue May 03 16:29:49 JST 2016 nnaida27 61.44 32.19 50.94
Tue May 03 16:29:50 JST 2016 nnaida28 66.19 32.75 0.00
Tue May 03 16:29:50 JST 2016 nnaida29 59.62 29.31 53.19
Tue May 03 16:29:51 JST 2016 nnaida30 60.75 34.69 55.06
Tue May 03 16:29:51 JST 2016 nnaida31 59.19 30.38 47.06
Tue May 03 16:29:51 JST 2016 nnaida32 61.62 31.25 51.88
Tue May 03 16:30:51 JST 2016 nnaida1 61.75 32.31 60.25
Tue May 03 16:30:52 JST 2016 nnaida2 59.56 32.25 61.75
Tue May 03 16:30:52 JST 2016 nnaida3 65.12 33.50 49.88
Tue May 03 16:30:52 JST 2016 nnaida4 69.62 39.25 54.44
Tue May 03 16:30:53 JST 2016 nnaida5 64.38 32.88 55.25
Tue May 03 16:30:53 JST 2016 nnaida6 67.31 37.94 53.19
Tue May 03 16:30:53 JST 2016 nnaida7 62.69 31.62 0.00
Tue May 03 16:30:54 JST 2016 nnaida8 61.44 31.44 49.44
Tue May 03 16:30:54 JST 2016 nnaida9 65.75 32.06 55.25
Tue May 03 16:30:54 JST 2016 nnaida10 65.81 35.06 65.69
Tue May 03 16:30:55 JST 2016 nnaida11 65.00 33.94 52.25
Tue May 03 16:30:55 JST 2016 nnaida12 72.56 44.88 52.19
Tue May 03 16:30:55 JST 2016 nnaida13 62.44 31.62 50.88
Tue May 03 16:30:55 JST 2016 nnaida14 60.75 32.19 51.62
Tue May 03 16:30:56 JST 2016 nnaida15 61.00 31.25 0.00
Tue May 03 16:30:56 JST 2016 nnaida16 57.62 31.19 50.25
Tue May 03 16:30:56 JST 2016 nnaida17 56.56 30.81 55.00
Tue May 03 16:30:57 JST 2016 nnaida18 61.38 32.50 52.00
Tue May 03 16:30:57 JST 2016 nnaida19 64.88 34.31 57.50
Tue May 03 16:30:57 JST 2016 nnaida20 72.44 42.56 55.62
Tue May 03 16:30:58 JST 2016 nnaida21 64.75 31.06 47.94
Tue May 03 16:30:58 JST 2016 nnaida22 60.50 31.94 45.88
Tue May 03 16:30:58 JST 2016 nnaida23 62.50 32.56 0.00
Tue May 03 16:30:58 JST 2016 nnaida24 65.94 34.31 53.25
Tue May 03 16:30:59 JST 2016 nnaida25 57.94 30.00 58.50
Tue May 03 16:30:59 JST 2016 nnaida26 61.06 30.12 56.38
Tue May 03 16:30:59 JST 2016 nnaida27 61.56 32.12 50.94
Tue May 03 16:31:00 JST 2016 nnaida28 66.25 32.81 0.00
Tue May 03 16:31:00 JST 2016 nnaida29 59.75 29.31 53.12
Tue May 03 16:31:00 JST 2016 nnaida30 60.81 34.69 55.06
Tue May 03 16:31:01 JST 2016 nnaida31 59.25 30.44 47.00
Tue May 03 16:31:01 JST 2016 nnaida32 61.75 31.38 51.88
Tue May 03 16:32:01 JST 2016 nnaida1 61.75 32.31 60.31
Tue May 03 16:32:02 JST 2016 nnaida2 59.62 32.31 61.81
Tue May 03 16:32:02 JST 2016 nnaida3 65.19 33.56 49.88
Tue May 03 16:32:02 JST 2016 nnaida4 69.56 39.25 54.38
Tue May 03 16:32:03 JST 2016 nnaida5 64.44 32.94 55.25
Tue May 03 16:32:03 JST 2016 nnaida6 67.25 38.00 53.19
Tue May 03 16:32:03 JST 2016 nnaida7 62.69 31.69 0.00
Tue May 03 16:32:03 JST 2016 nnaida8 61.50 31.44 49.31
Tue May 03 16:32:04 JST 2016 nnaida9 65.81 32.19 55.19
Tue May 03 16:32:04 JST 2016 nnaida10 65.94 35.00 65.69
Tue May 03 16:32:04 JST 2016 nnaida11 65.12 34.06 52.19
Tue May 03 16:32:05 JST 2016 nnaida12 72.56 45.19 52.25
Tue May 03 16:32:05 JST 2016 nnaida13 62.44 31.56 50.81
Tue May 03 16:32:05 JST 2016 nnaida14 60.81 32.12 51.62
Tue May 03 16:32:06 JST 2016 nnaida15 61.06 31.19 0.00
Tue May 03 16:32:06 JST 2016 nnaida16 57.69 31.19 50.19
Tue May 03 16:32:06 JST 2016 nnaida17 56.50 30.81 55.00
Tue May 03 16:32:07 JST 2016 nnaida18 61.31 32.56 52.00
Tue May 03 16:32:07 JST 2016 nnaida19 64.81 34.38 57.62
Tue May 03 16:32:07 JST 2016 nnaida20 72.56 42.50 55.56
Tue May 03 16:32:08 JST 2016 nnaida21 64.75 31.06 48.00
Tue May 03 16:32:08 JST 2016 nnaida22 60.50 31.94 45.88
Tue May 03 16:32:08 JST 2016 nnaida23 62.44 32.50 0.00
Tue May 03 16:32:08 JST 2016 nnaida24 66.00 34.44 53.19
Tue May 03 16:32:09 JST 2016 nnaida25 57.94 30.00 58.44
Tue May 03 16:32:09 JST 2016 nnaida26 61.12 30.06 56.44
Tue May 03 16:32:09 JST 2016 nnaida27 61.44 32.19 51.00
Tue May 03 16:32:10 JST 2016 nnaida28 66.31 32.75 0.00
Tue May 03 16:32:10 JST 2016 nnaida29 59.69 29.31 53.12
Tue May 03 16:32:10 JST 2016 nnaida30 60.81 34.75 55.00
Tue May 03 16:32:11 JST 2016 nnaida31 59.25 30.38 47.06
Tue May 03 16:32:11 JST 2016 nnaida32 61.81 31.44 51.94
Tue May 03 16:33:11 JST 2016 nnaida1 61.75 32.31 60.25
Tue May 03 16:33:11 JST 2016 nnaida2 59.69 32.38 61.69
Tue May 03 16:33:12 JST 2016 nnaida3 65.25 33.56 49.81
Tue May 03 16:33:12 JST 2016 nnaida4 69.56 39.25 54.44
Tue May 03 16:33:12 JST 2016 nnaida5 64.44 32.88 55.25
Tue May 03 16:33:13 JST 2016 nnaida6 67.25 38.06 53.12
Tue May 03 16:33:13 JST 2016 nnaida7 62.75 31.69 0.00
Tue May 03 16:33:13 JST 2016 nnaida8 61.50 31.56 49.50
Tue May 03 16:33:14 JST 2016 nnaida9 65.81 32.12 55.19
Tue May 03 16:33:14 JST 2016 nnaida10 65.94 35.06 65.69
Tue May 03 16:33:14 JST 2016 nnaida11 65.06 34.00 52.19
Tue May 03 16:33:15 JST 2016 nnaida12 72.62 44.88 52.31
Tue May 03 16:33:15 JST 2016 nnaida13 62.44 31.62 50.81
Tue May 03 16:33:15 JST 2016 nnaida14 60.81 32.12 51.69
Tue May 03 16:33:16 JST 2016 nnaida15 61.06 31.31 0.00
Tue May 03 16:33:16 JST 2016 nnaida16 57.62 31.19 50.31
Tue May 03 16:33:16 JST 2016 nnaida17 56.56 30.88 55.00
Tue May 03 16:33:16 JST 2016 nnaida18 61.38 32.56 52.00
Tue May 03 16:33:17 JST 2016 nnaida19 64.88 34.38 57.50
Tue May 03 16:33:17 JST 2016 nnaida20 72.50 42.50 55.56
Tue May 03 16:33:17 JST 2016 nnaida21 64.81 31.00 47.94
Tue May 03 16:33:18 JST 2016 nnaida22 60.50 31.94 45.88
Tue May 03 16:33:18 JST 2016 nnaida23 62.56 32.56 0.00
Tue May 03 16:33:18 JST 2016 nnaida24 66.00 34.31 53.25
Tue May 03 16:33:19 JST 2016 nnaida25 58.06 30.06 58.50
Tue May 03 16:33:19 JST 2016 nnaida26 61.19 30.06 56.44
Tue May 03 16:33:19 JST 2016 nnaida27 61.50 32.19 51.00
Tue May 03 16:33:19 JST 2016 nnaida28 66.38 32.75 0.00
Tue May 03 16:33:20 JST 2016 nnaida29 59.81 29.31 53.12
Tue May 03 16:33:20 JST 2016 nnaida30 60.81 34.81 55.06
Tue May 03 16:33:20 JST 2016 nnaida31 59.38 30.31 47.12
Tue May 03 16:33:21 JST 2016 nnaida32 61.81 31.38 51.94
Tue May 03 16:34:21 JST 2016 nnaida1 61.69 32.31 60.31
Tue May 03 16:34:21 JST 2016 nnaida2 59.62 32.38 61.75
Tue May 03 16:34:22 JST 2016 nnaida3 65.12 33.50 49.88
Tue May 03 16:34:22 JST 2016 nnaida4 69.62 39.19 54.44
Tue May 03 16:34:22 JST 2016 nnaida5 64.44 32.81 55.44
Tue May 03 16:34:23 JST 2016 nnaida6 67.38 38.00 53.19
Tue May 03 16:34:23 JST 2016 nnaida7 62.69 31.69 0.00
Tue May 03 16:34:23 JST 2016 nnaida8 61.56 31.50 49.38
Tue May 03 16:34:23 JST 2016 nnaida9 65.81 32.12 55.25
Tue May 03 16:34:24 JST 2016 nnaida10 65.94 35.06 65.69
Tue May 03 16:34:24 JST 2016 nnaida11 65.19 34.12 52.19
Tue May 03 16:34:24 JST 2016 nnaida12 72.62 45.25 52.25
Tue May 03 16:34:25 JST 2016 nnaida13 62.44 31.69 50.75
Tue May 03 16:34:25 JST 2016 nnaida14 60.88 32.25 51.56
Tue May 03 16:34:25 JST 2016 nnaida15 61.12 31.31 0.00
Tue May 03 16:34:26 JST 2016 nnaida16 57.62 31.12 50.31
Tue May 03 16:34:26 JST 2016 nnaida17 56.50 30.81 54.94
Tue May 03 16:34:26 JST 2016 nnaida18 61.38 32.62 52.00
Tue May 03 16:34:27 JST 2016 nnaida19 64.88 34.38 57.44
Tue May 03 16:34:27 JST 2016 nnaida20 72.50 42.62 55.50
Tue May 03 16:34:27 JST 2016 nnaida21 64.81 31.06 48.00
Tue May 03 16:34:28 JST 2016 nnaida22 60.44 32.00 45.94
Tue May 03 16:34:28 JST 2016 nnaida23 62.50 32.56 0.00
Tue May 03 16:34:28 JST 2016 nnaida24 66.06 34.38 53.31
Tue May 03 16:34:28 JST 2016 nnaida25 58.00 30.00 58.50
Tue May 03 16:34:29 JST 2016 nnaida26 61.12 30.19 56.38
Tue May 03 16:34:29 JST 2016 nnaida27 61.44 32.19 51.00
Tue May 03 16:34:29 JST 2016 nnaida28 66.38 32.81 0.00
Tue May 03 16:34:30 JST 2016 nnaida29 59.75 29.31 53.25
Tue May 03 16:34:30 JST 2016 nnaida30 60.81 34.81 55.06
Tue May 03 16:34:30 JST 2016 nnaida31 59.31 30.25 47.19
Tue May 03 16:34:31 JST 2016 nnaida32 61.88 31.38 51.88
Tue May 03 16:35:31 JST 2016 nnaida1 61.75 32.38 60.25
Tue May 03 16:35:31 JST 2016 nnaida2 59.56 32.38 61.75
Tue May 03 16:35:32 JST 2016 nnaida3 65.19 33.50 49.94
Tue May 03 16:35:32 JST 2016 nnaida4 69.62 39.19 54.38
Tue May 03 16:35:32 JST 2016 nnaida5 64.50 32.94 55.31
Tue May 03 16:35:32 JST 2016 nnaida6 67.31 37.94 53.25
Tue May 03 16:35:33 JST 2016 nnaida7 62.75 31.69 0.00
Tue May 03 16:35:33 JST 2016 nnaida8 61.56 31.56 49.38
Tue May 03 16:35:33 JST 2016 nnaida9 65.81 32.12 55.25
Tue May 03 16:35:34 JST 2016 nnaida10 66.00 35.06 65.75
Tue May 03 16:35:34 JST 2016 nnaida11 65.12 34.06 52.25
Tue May 03 16:35:34 JST 2016 nnaida12 72.62 44.94 52.31
... 10485 more lines ...
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Wed Jan 28 16:12:52 2015 |
Tom Davinson | AIDA Tests at STFC DL - 27-28.1.15 - TD & PCS |
MSL type BB18-1000 2998-22 bias +200V I_L +3.52uA
Detector bias CAEN N1419 Programmable HV Power Supply
- FAGND isolated from AGND (AGND = NIM chassis ground)
- floating HV supply, <5mV pp noise specification
- configured + polarity, i.e. core to nnaida11 & nnaida12 MSL type BB18 n+n ohmic strips
braid to nnaida12 & nnaida13 MSL type BB18 p+n junction strips
- configured bias voltage to 200V, max bias voltage 200V, max leakage current 20uA,
trip 10s, ramp up/down 1V/s
BNC PB-5
amp 0.5V
atten x1
tau_d 1ms
freq 100Hz
pol - (output split via EG&G Ortec 433A to generate + polarity too)
PSU
Standard AIDA FEE64 PSU + new filter PCBs
Adaptor
nnaida11 & nnaida12 - polarity input (n+n ohmic strips)
MSL type BB18 adaptor PCB rev 180713 LK 3 & 7
nnaida13 & nnaida14 + polarity input (p+n junction strips)
MSL type BB18 adaptor PCB rev 290114 LK 1, 3, 5 & 7
+/- test inputs terminated by 50 Ohm
DSSSD grounded locally at nnaida12 & nnaida13 adaptor PCBs
by ground links LK 1 & 5
Adaptor PCB grounds connected by thick copper braid (see attached images)
FEE64
nnaida11 2b:09:ce
nnaida12 2b:09:e8
nnaida13 2b:09:07
nnaida14 2b:22:55
FEE firmware release 0x16cee018
ASIC parameters
Default ASIC parameters (EXPERIMENT/AIDA/2014Aug13-13.44.58) except
- shaping time 2us
- slow comparator 64 (hex 40)
- nnaida11 & nnaida12 preAmp reference 0x30 -> 0x38
which will reduce linear output range but significantly stabilises
negative polarity input ASICs
Typical pulser peak widths for nnaida11, 12, 13 and 14 c. 130-150ch FWHM.
Without the copper braid connecting the two adaptor PCBs the peak widths
are typically 200-250ch FWHM.
The problem observed last week (leakage current > 20uA, bias c. 3V, i.e. an
apparent 150k short) was found to be due to a fault on the n+n side FEE Adaptor
PCB rev 290114. Specifically the left hand connector was faulty. The exact
nature of the fault has not yet been determined but will be investigated.
For time being the rev 290114 PCB has been replaced by a rev 180713 PCB
with a 2-way IDC connector from the HV cable (core) to LK1. |
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Thu Sep 11 10:16:57 2014 |
Tom Davinson | AIDA Tests at STFC DL - PCS, SLT, TD |
MSL type BB18-1000 2998-22 bias +200V I_L +3.27uA
BNC PB-5
amp 2.0V
atten x1
tau_d 1ms
freq 200Hz
pol - (output split via EG&G Ortec 433A to generate + polarity too)
PSU
TTi QL355TP "-6V & +7V" output set @ -7V & +8V, @ FEE64 -6.7V & +7.3V
TTi QPX1200S "5V" output set @ +6.2V, @ FEE64 +5.3V
'linearly regulated output' PSUs connected via standard FEE64 PSU chassis
Adaptor
nnaida11 & nnaida12 - polarity input (n+n ohmic strips)
MSL type BB18 adaptor PCB rev 180713 LK 3 & 7
nnaida13 & nnaida14 + polarity input (p+n junction strips)
MSL type BB18 adaptor PCB rev 180713 LK 1, 3, 5 & 7
FEE64
Note nnaida11 has been modified to remove the 470 Ohm resistors
linking the buffered preamp outputs from the ASICs to the buffer
amplifiers at the sampling ADC inputs. This effectively reduces
to zero the switching current load on the buffered preamp outputs.
ASIC parameters
standard *except* nnaida11 & nnaida12 preAmp reference 0x20 -> 0x90
which will reduce linear output range by c. x2 but significantly stabilises
negative polarity input ASICs
varying nnaida11 & nnaida12 'Ibias Preamp SF' and 'Ibias Preamp' from 0x8 -> 0x0
had marginal effect on stability and degraded ADC spectra
Typical pulser peak widths for nnaida11, 12 (ASICs #1-3) and nnaida13, 14 (ASICs #1-4)
c. 130-150ch FWHM.
Attachments
1-4 nnaida11, 12, 13, & 14 ASIC parameters
5-8 nnaida11, 12, 13, & 14 hit/rate patterns
9-12 nnaida11 ASICs # 1-4
13-16 nnaida12 ASICs # 1-4
17 nnaida13 ASIC # 4
18 nnaida14 ASIC # 4
19 nnaida11, 12, 13 & 14 'good events' statistics |
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Thu Sep 11 16:12:06 2014 |
Tom Davinson and photos by Patrick | AIDA Tests at STFC DL - PCS, SLT, TD |
Changes from configuration described by Elog entry https://elog.ph.ed.ac.uk/AIDA/3
are as follows:
HV
Emco Q05-5 ISOLATED, PROPORTIONAL DC TO HV DC CONVERTER
Input TTi QL355T set +1.5V, Emco Q05-5 output +194.6V
Output RC filter 1uF x 1MOhm
i.e. a filtered, floating high voltage detector bias supply
cf. NIM-bin grounded Silena 7710 Quad Bias used previously
ASIC Adaptor PCB
nnaida11 & nnaida12 LK 3 & 7
nnaida13 & nnaida13 LK 1, 3, 5, & 7
HV + -> nnaida11 & nnaida12
HV - -> nnaida13 & nnaida14
DSSSD grounded locally at nnaida12 & nnaida13 adaptor PCBs
by ground links LK 1 & 5 (cf. Silena 7710 Quad Bias Supply
used previously).
ASIC settings
Default ASIC settings (see attachments 1-4)
Observe stable operation of both positive and negative polarity
FEE64s using default ASIC parameters and a floating HV detector
bias supply
Attachments
1-4 nnaida11, 12, 13, & 14 ASIC settings
5-8 nnaida11, 12, 13, & 14 hit/rate patterns
9-12 nnaida11, 12, 13, & 14 ASIC # 4 ADC spectra
13 nnaida12 ASIC # 1 waveforms
14 nnaida14 ASIC # 1 waveforms
15 Emco Q-series catalogue |
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Thu Nov 20 14:05:21 2014 |
Tom Davinson | AIDA Tests at STFC DL - PCS, TD |
Configuration per Elog entries:
https://elog.ph.ed.ac.uk/AIDA/3
https://elog.ph.ed.ac.uk/AIDA/4
- except -
FEE firmware
- reverted release 0xa4ed006
as used at RIKEN due to stability/data issues with most recent releases
Detector bias CAEN N1419 Programmable HV Power Supply
- FAGND isolated from AGND (AGND = NIM chassis ground)
- floating HV supply, <5mV pp noise specification
- configured + polarity, i.e. core to nnaida11 & nnaida12 MSL type BB18 n+n ohmic strips
braid to nnaida12 & nnaida13 MSL type BB18 p+n junction strips
- configured bias voltage to 200V, max bias voltage 200V, max leakage current 20uA,
trip 10s, ramp up/down 1V/s
- bias 200V, leakage current 4.9-5.1uA
ASIC parameters
Default ASIC parameters (EXPERIMENT/AIDA/2014Aug13-13.44.58) except
- shaping time 5us
- slow comparator 20 (hex 14)
R31
- 207Bi source (serial AD6201) mounted c. 3cm from MSL type BB18 DSSSD
- p+n junction side faces 207Bi source
- source serial number *away* from DSSSD
- Pulser BNC PB-5
fall time 1ms
rate 10Hz
delay 250ns
ampl 1.00000V
polarity -
pulse top tail
atten x1
positive polarity test input via EG&G Ortec 433A
R32
- 207Bi source (serial AD6201) mounted c. 3cm from MSL type BB18 DSSSD
- p+n junction side faces 207Bi source
- source serial number faces DSSSD
Attachments 1-20 from R32 |
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