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  HEPHY logbook of the Electronics Group, all entries  Not logged in ELOG logo
  ID Date Authorup Project Measurement Type Object ID Subject
  18   Wed May 7 14:36:29 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 1 of 6 room temperature measurements using Sr90 Source (multi6)

Sr90 Radioactive Source
No cooling
Module position: -5:-20(top left)
HV Turned to +40,-40V with currents. +1.2 and -1.2 µA

N+1.25V current: 0.22A
N+2.5 V current: 0.56A
P+1.25V current: 0.26A
P+2.50V current: 0.70A

Events: 200000

Attachment 1: run01_all_hits_apv0.png
run01_all_hits_apv0.png
Attachment 2: run01_all_hits_apv1.png
run01_all_hits_apv1.png
Attachment 3: run01_all_hits_apv2.png
run01_all_hits_apv2.png
Attachment 4: run01_all_hits_apv3.png
run01_all_hits_apv3.png
Attachment 5: run01_all_hits_apv4.png
run01_all_hits_apv4.png
Attachment 6: run01_all_hits_apv5.png
run01_all_hits_apv5.png
Attachment 7: run01_all_hits_apv6.png
run01_all_hits_apv6.png
Attachment 8: run01_all_hits_apv7.png
run01_all_hits_apv7.png
Attachment 9: run01_all_hits_apv8.png
run01_all_hits_apv8.png
Attachment 10: run01_all_hits_apv9.png
run01_all_hits_apv9.png
  19   Wed May 7 15:04:32 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 2 of 6 room temperature measurements using Sr90 Source (multi6)

Sr90 Radioactive Source
No cooling
Module position: -32:-20(top center)
HV Turned to +40,-40V with currents. +1.23 and -1.25 µA

N+1.25V current: 0.22A
N+2.50V current: 0.56A
P+1.25V current: 0.26A
P+2.50V current: 0.71A

Events: 200000

Attachment 1: run02_all_hits_apv0.png
run02_all_hits_apv0.png
Attachment 2: run02_all_hits_apv1.png
run02_all_hits_apv1.png
Attachment 3: run02_all_hits_apv2.png
run02_all_hits_apv2.png
Attachment 4: run02_all_hits_apv3.png
run02_all_hits_apv3.png
Attachment 5: run02_all_hits_apv4.png
run02_all_hits_apv4.png
Attachment 6: run02_all_hits_apv5.png
run02_all_hits_apv5.png
Attachment 7: run02_all_hits_apv6.png
run02_all_hits_apv6.png
Attachment 8: run02_all_hits_apv7.png
run02_all_hits_apv7.png
Attachment 9: run02_all_hits_apv8.png
run02_all_hits_apv8.png
Attachment 10: run02_all_hits_apv9.png
run02_all_hits_apv9.png
  20   Wed May 7 15:53:38 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 3 of 6 room temperature measurements using Sr90 Source (multi6)

Sr90 Radioactive Source
No cooling
Module position: -59:-20(top right)
HV Turned to +40,-40V with currents. +1.25 and -1.26 µA

N+1.25V current: 0.22A
N+2.50V current: 0.56A
P+1.25V current: 0.26A
P+2.50V current: 0.71A

Events: 200000

Attachment 1: run03_all_hits_apv0.png
run03_all_hits_apv0.png
Attachment 2: run03_all_hits_apv1.png
run03_all_hits_apv1.png
Attachment 3: run03_all_hits_apv2.png
run03_all_hits_apv2.png
Attachment 4: run03_all_hits_apv3.png
run03_all_hits_apv3.png
Attachment 5: run03_all_hits_apv4.png
run03_all_hits_apv4.png
Attachment 6: run03_all_hits_apv5.png
run03_all_hits_apv5.png
Attachment 7: run03_all_hits_apv6.png
run03_all_hits_apv6.png
Attachment 8: run03_all_hits_apv7.png
run03_all_hits_apv7.png
Attachment 9: run03_all_hits_apv8.png
run03_all_hits_apv8.png
Attachment 10: run03_all_hits_apv9.png
run03_all_hits_apv9.png
  21   Wed May 7 16:43:37 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 4 of 6 room temperature measurements using Sr90 Source (multi6)

Sr90 Radioactive Source
No cooling
Module position: -5:-30(bottom left)
HV Turned to +40,-40V with currents. +1.25 and -1.26 µA

N+1.25V current: 0.22A
N+2.50V current: 0.57A
P+1.25V current: 0.26A
P+2.50V current: 0.72A

Events: 200000

Attachment 1: run04_all_hits_apv0.png
run04_all_hits_apv0.png
Attachment 2: run04_all_hits_apv1.png
run04_all_hits_apv1.png
Attachment 3: run04_all_hits_apv2.png
run04_all_hits_apv2.png
Attachment 4: run04_all_hits_apv3.png
run04_all_hits_apv3.png
Attachment 5: run04_all_hits_apv4.png
run04_all_hits_apv4.png
Attachment 6: run04_all_hits_apv5.png
run04_all_hits_apv5.png
Attachment 7: run04_all_hits_apv6.png
run04_all_hits_apv6.png
Attachment 8: run04_all_hits_apv7.png
run04_all_hits_apv7.png
Attachment 9: run04_all_hits_apv8.png
run04_all_hits_apv8.png
Attachment 10: run04_all_hits_apv9.png
run04_all_hits_apv9.png
  22   Wed May 7 17:33:21 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 5 of 6 room temperature measurements using Sr90 Source (multi6)

Sr90 Radioactive Source
No cooling
Module position: -32:-30(bottom center)
HV Turned to +40,-40V with currents. +1.22 and -1.24 µA

N+1.25V current: 0.22A
N+2.50V current: 0.56A
P+1.25V current: 0.26A
P+2.50V current: 0.70A

Events: 200000

Attachment 1: run05_all_hits_apv0.png
run05_all_hits_apv0.png
Attachment 2: run05_all_hits_apv1.png
run05_all_hits_apv1.png
Attachment 3: run05_all_hits_apv2.png
run05_all_hits_apv2.png
Attachment 4: run05_all_hits_apv3.png
run05_all_hits_apv3.png
Attachment 5: run05_all_hits_apv4.png
run05_all_hits_apv4.png
Attachment 6: run05_all_hits_apv5.png
run05_all_hits_apv5.png
Attachment 7: run05_all_hits_apv6.png
run05_all_hits_apv6.png
Attachment 8: run05_all_hits_apv7.png
run05_all_hits_apv7.png
Attachment 9: run05_all_hits_apv8.png
run05_all_hits_apv8.png
Attachment 10: run05_all_hits_apv9.png
run05_all_hits_apv9.png
  23   Wed May 7 18:20:36 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 6 of 6 room temperature measurements using Sr90 Source (multi6)

Sr90 Radioactive Source
No cooling
Module position: -57:-30(bottom right)
HV Turned to +40,-40V with currents. +1.2 and -1.22 µA

N+1.25V current: 0.22A
N+2.50V current: 0.56A
P+1.25V current: 0.26A
P+2.50V current: 0.70A

Events: 200000

Attachment 1: run06_all_hits_apv0.png
run06_all_hits_apv0.png
Attachment 2: run06_all_hits_apv1.png
run06_all_hits_apv1.png
Attachment 3: run06_all_hits_apv2.png
run06_all_hits_apv2.png
Attachment 4: run06_all_hits_apv3.png
run06_all_hits_apv3.png
Attachment 5: run06_all_hits_apv4.png
run06_all_hits_apv4.png
Attachment 6: run06_all_hits_apv5.png
run06_all_hits_apv5.png
Attachment 7: run06_all_hits_apv6.png
run06_all_hits_apv6.png
Attachment 8: run06_all_hits_apv7.png
run06_all_hits_apv7.png
Attachment 9: run06_all_hits_apv8.png
run06_all_hits_apv8.png
Attachment 10: run06_all_hits_apv9.png
run06_all_hits_apv9.png
  26   Thu May 8 16:51:03 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 1 of 6 room temperature measurements using Sr90 Source (single)

Sr90 Radioactive Source
No cooling
Module position: 0:0(top left)
HV Turned to +40,-40V with currents. +1.0 and -1.0 µA

N+1.25V current: 0.22A
N+2.50V current: 0.57A
P+1.25V current: 0.26A
P+2.50V current: 0.72A

Events: 200000

Attachment 1: run07_all_hits_apv0.png
run07_all_hits_apv0.png
Attachment 2: run07_all_hits_apv1.png
run07_all_hits_apv1.png
Attachment 3: run07_all_hits_apv2.png
run07_all_hits_apv2.png
Attachment 4: run07_all_hits_apv3.png
run07_all_hits_apv3.png
Attachment 5: run07_all_hits_apv4.png
run07_all_hits_apv4.png
Attachment 6: run07_all_hits_apv5.png
run07_all_hits_apv5.png
Attachment 7: run07_all_hits_apv6.png
run07_all_hits_apv6.png
Attachment 8: run07_all_hits_apv7.png
run07_all_hits_apv7.png
Attachment 9: run07_all_hits_apv8.png
run07_all_hits_apv8.png
Attachment 10: run07_all_hits_apv9.png
run07_all_hits_apv9.png
  27   Thu May 8 16:51:57 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 2 of 6 room temperature measurements using Sr90 Source (single)

Failed with Error: "***ERROR*** Init NECO failed,  Return code: -32761"

Restarted and it works again

Sr90 Radioactive Source
No cooling
Module position: -27:0(top center)
HV Turned to +40,-40V with currents. +0.97 and -1.0 µA

N+1.25V current: 0.22A
N+2.50V current: 0.57A
P+1.25V current: 0.26A
P+2.50V current: 0.73A

Events: 200000

  28   Fri May 9 15:12:44 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 2 of 6 room temperature measurements using Sr90 Source (single)

Sr90 Radioactive Source
No cooling
Module position: -27:0(top center)
HV Turned to +40,-40V with currents. +0.95 and -0.98 µA

N+1.25V current: 0.22A
N+2.50V current: 0.57A
P+1.25V current: 0.26A
P+2.50V current: 0.72A

Events: 200000

Attachment 1: run08_3rd_all_hits_apv0.png
run08_3rd_all_hits_apv0.png
Attachment 2: run08_3rd_all_hits_apv1.png
run08_3rd_all_hits_apv1.png
Attachment 3: run08_3rd_all_hits_apv2.png
run08_3rd_all_hits_apv2.png
Attachment 4: run08_3rd_all_hits_apv3.png
run08_3rd_all_hits_apv3.png
Attachment 5: run08_3rd_all_hits_apv4.png
run08_3rd_all_hits_apv4.png
Attachment 6: run08_3rd_all_hits_apv5.png
run08_3rd_all_hits_apv5.png
Attachment 7: run08_3rd_all_hits_apv6.png
run08_3rd_all_hits_apv6.png
Attachment 8: run08_3rd_all_hits_apv7.png
run08_3rd_all_hits_apv7.png
Attachment 9: run08_3rd_all_hits_apv8.png
run08_3rd_all_hits_apv8.png
Attachment 10: run08_3rd_all_hits_apv9.png
run08_3rd_all_hits_apv9.png
  29   Fri May 9 16:44:41 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 3 of 6 room temperature measurements using Sr90 Source (single)

Sr90 Radioactive Source
No cooling
Module position: -54:0(top center)
HV Turned to +40,-40V with currents. +1.2 and -1.22 µA

N+1.25V current: 0.22A
N+2.50V current: 0.54A
P+1.25V current: 0.26A
P+2.50V current: 0.68A

Events: 200000

Attachment 1: run09_all_hits_apv0.png
run09_all_hits_apv0.png
Attachment 2: run09_all_hits_apv1.png
run09_all_hits_apv1.png
Attachment 3: run09_all_hits_apv2.png
run09_all_hits_apv2.png
Attachment 4: run09_all_hits_apv3.png
run09_all_hits_apv3.png
Attachment 5: run09_all_hits_apv4.png
run09_all_hits_apv4.png
Attachment 6: run09_all_hits_apv5.png
run09_all_hits_apv5.png
Attachment 7: run09_all_hits_apv6.png
run09_all_hits_apv6.png
Attachment 8: run09_all_hits_apv7.png
run09_all_hits_apv7.png
Attachment 9: run09_all_hits_apv8.png
run09_all_hits_apv8.png
Attachment 10: run09_all_hits_apv9.png
run09_all_hits_apv9.png
  30   Fri May 16 11:37:05 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 4 of 6 room temperature measurements using Sr90 Source (single)

Sr90 Radioactive Source
No cooling
Module position: 0:-10(bottom left)
HV Turned to +40,-40V with currents. +0.85 and -0-9 µA

N+1.25V current: 0.22A
N+2.50V current: 0.57A
P+1.25V current: 0.26A
P+2.50V current: 0.71A

Events: 200000

Attachment 1: run10_all_hits_apv0.png
run10_all_hits_apv0.png
Attachment 2: run10_all_hits_apv1.png
run10_all_hits_apv1.png
Attachment 3: run10_all_hits_apv2.png
run10_all_hits_apv2.png
Attachment 4: run10_all_hits_apv3.png
run10_all_hits_apv3.png
Attachment 5: run10_all_hits_apv4.png
run10_all_hits_apv4.png
Attachment 6: run10_all_hits_apv5.png
run10_all_hits_apv5.png
Attachment 7: run10_all_hits_apv6.png
run10_all_hits_apv6.png
Attachment 8: run10_all_hits_apv7.png
run10_all_hits_apv7.png
Attachment 9: run10_all_hits_apv8.png
run10_all_hits_apv8.png
Attachment 10: run10_all_hits_apv9.png
run10_all_hits_apv9.png
  31   Fri May 16 11:38:44 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 5 of 6 room temperature measurements using Sr90 Source (single)

Sr90 Radioactive Source
No cooling
Module position: -27:-10(bottom center)
HV Turned to +40,-40V with currents. +1.05 and -1.1 µA

N+1.25V current: 0.22A
N+2.50V current: 0.55A
P+1.25V current: 0.26A
P+2.50V current: 0.67A

Events: 200000

Attachment 1: run11_all_hits_apv0.png
run11_all_hits_apv0.png
Attachment 2: run11_all_hits_apv1.png
run11_all_hits_apv1.png
Attachment 3: run11_all_hits_apv2.png
run11_all_hits_apv2.png
Attachment 4: run11_all_hits_apv3.png
run11_all_hits_apv3.png
Attachment 5: run11_all_hits_apv4.png
run11_all_hits_apv4.png
Attachment 6: run11_all_hits_apv5.png
run11_all_hits_apv5.png
Attachment 7: run11_all_hits_apv6.png
run11_all_hits_apv6.png
Attachment 8: run11_all_hits_apv7.png
run11_all_hits_apv7.png
Attachment 9: run11_all_hits_apv8.png
run11_all_hits_apv8.png
Attachment 10: run11_all_hits_apv9.png
run11_all_hits_apv9.png
  32   Fri May 16 11:40:29 2014 Benedikt WürknerBelle IIsourceL3 moduleNo 6 of 6 room temperature measurements using Sr90 Source (single)

Sr90 Radioactive Source
No cooling
Module position: -54:-10(bottom right)
HV Turned to +40,-40V with currents. +1.1 and -1.1 µA

N+1.25V current: 0.22A
N+2.50V current: 0.55A
P+1.25V current: 0.26A
P+2.50V current: 0.67A

Events: 200000
 

Attachment 1: run12_all_hits_apv0.png
run12_all_hits_apv0.png
Attachment 2: run12_all_hits_apv1.png
run12_all_hits_apv1.png
Attachment 3: run12_all_hits_apv2.png
run12_all_hits_apv2.png
Attachment 4: run12_all_hits_apv3.png
run12_all_hits_apv3.png
Attachment 5: run12_all_hits_apv4.png
run12_all_hits_apv4.png
Attachment 6: run12_all_hits_apv5.png
run12_all_hits_apv5.png
Attachment 7: run12_all_hits_apv6.png
run12_all_hits_apv6.png
Attachment 8: run12_all_hits_apv7.png
run12_all_hits_apv7.png
Attachment 9: run12_all_hits_apv8.png
run12_all_hits_apv8.png
Attachment 10: run12_all_hits_apv9.png
run12_all_hits_apv9.png
  33   Thu Jun 5 10:33:46 2014 Benedikt WürknerBelle IIsourceSilc ModuleSilc Angle Measurement 1°

Measured the Silc 03/10 Module using the Sr90 Source to have a comparison for the Eta-Distribution at different angles. 

Data can be found on heros in: /home/medialib/LAB_Silc_Angle. 

Plots made with TuxOA for all different regions can be found in /home/users/bwuerkner/plots/. 

 

  34   Thu Jun 5 10:34:06 2014 Benedikt WürknerBelle IIsourceSilc ModuleSilc Angle Measurement 4°

Measured the Silc 03/10 Module using the Sr90 Source to have a comparison for the Eta-Distribution at different angles. 

Data can be found on heros in: /home/medialib/LAB_Silc_Angle. 

Plots made with TuxOA for all different regions can be found in /home/users/bwuerkner/plots/. 

 

  35   Thu Jun 5 10:34:29 2014 Benedikt WürknerBelle IIsourceSilc ModuleSilc Angle Measurement 7°

Measured the Silc 03/10 Module using the Sr90 Source to have a comparison for the Eta-Distribution at different angles. 

Data can be found on heros in: /home/medialib/LAB_Silc_Angle. 

Plots made with TuxOA for all different regions can be found in /home/users/bwuerkner/plots/. 

 

  36   Thu Jun 5 10:34:45 2014 Benedikt WürknerBelle IIsourceSilc ModuleSilc Angle Measurement 10°

Measured the Silc 03/10 Module using the Sr90 Source to have a comparison for the Eta-Distribution at different angles. 

Data can be found on heros in: /home/medialib/LAB_Silc_Angle. 

Plots made with TuxOA for all different regions can be found in /home/users/bwuerkner/plots/. 

 

  3   Wed Apr 23 13:05:05 2008 Christian IrmlerSPS Testbeam June08sourcehybrid 01time correlation between TDC and sensor measurement -> 3.1 ns RMS
Attachment 1: vie_run001_tpeak_vs_TDC.gif
vie_run001_tpeak_vs_TDC.gif
  6   Wed May 7 15:24:49 2008 Christian IrmlerSPS Testbeam June08modulemodule 10/02properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100V) = 19.1 nA Ibias (200V) = 23.7 nA
Attachment 1: modul1002_1row_cal_apv0.png
modul1002_1row_cal_apv0.png
Attachment 2: modul1002_1row_cal_apv1.png
modul1002_1row_cal_apv1.png
Attachment 3: modul1002_1row_cmnoise_apv0.png
modul1002_1row_cmnoise_apv0.png
Attachment 4: modul1002_1row_cmnoise_apv1.png
modul1002_1row_cmnoise_apv1.png
Attachment 5: modul1002_1row_pednoise_apv0.png
modul1002_1row_pednoise_apv0.png
Attachment 6: modul1002_1row_pednoise_apv1.png
modul1002_1row_pednoise_apv1.png
Attachment 7: modul1002_final_cal_apv0.png
modul1002_final_cal_apv0.png
Attachment 8: modul1002_final_cal_apv1.png
modul1002_final_cal_apv1.png
Attachment 9: modul1002_final_cmnoise_apv0.png
modul1002_final_cmnoise_apv0.png
Attachment 10: modul1002_final_cmnoise_apv1.png
modul1002_final_cmnoise_apv1.png
Attachment 11: modul1002_final_pednoise_apv0.png
modul1002_final_pednoise_apv0.png
Attachment 12: modul1002_final_pednoise_apv1.png
modul1002_final_pednoise_apv1.png
  9   Wed May 7 15:26:24 2008 Christian IrmlerSPS Testbeam June08modulemodule 20/09properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 25.1 nA Ibias (200 V) = 31.4 nA
Attachment 1: modul2009_1row_cal_apv0.png
modul2009_1row_cal_apv0.png
Attachment 2: modul2009_1row_cal_apv1.png
modul2009_1row_cal_apv1.png
Attachment 3: modul2009_1row_cmnoise_apv0.png
modul2009_1row_cmnoise_apv0.png
Attachment 4: modul2009_1row_cmnoise_apv1.png
modul2009_1row_cmnoise_apv1.png
Attachment 5: modul2009_1row_pednoise_apv0.png
modul2009_1row_pednoise_apv0.png
Attachment 6: modul2009_1row_pednoise_apv1.png
modul2009_1row_pednoise_apv1.png
Attachment 7: modul2009_final_cal_apv0.png
modul2009_final_cal_apv0.png
Attachment 8: modul2009_final_cal_apv1.png
modul2009_final_cal_apv1.png
Attachment 9: modul2009_final_cmnoise_apv0.png
modul2009_final_cmnoise_apv0.png
Attachment 10: modul2009_final_cmnoise_apv1.png
modul2009_final_cmnoise_apv1.png
Attachment 11: modul2009_final_pednoise_apv0.png
modul2009_final_pednoise_apv0.png
Attachment 12: modul2009_final_pednoise_apv1.png
modul2009_final_pednoise_apv1.png
  8   Wed May 7 15:40:07 2008 Christian IrmlerSPS Testbeam June08modulemodule 07/07properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 20.2 nA Ibias (200 V) = 21.9 nA
Attachment 1: modul0707_1row_cal_apv0.png
modul0707_1row_cal_apv0.png
Attachment 2: modul0707_1row_cal_apv1.png
modul0707_1row_cal_apv1.png
Attachment 3: modul0707_1row_cmnoise_apv0.png
modul0707_1row_cmnoise_apv0.png
Attachment 4: modul0707_1row_cmnoise_apv1.png
modul0707_1row_cmnoise_apv1.png
Attachment 5: modul0707_1row_pednoise_apv0.png
modul0707_1row_pednoise_apv0.png
Attachment 6: modul0707_1row_pednoise_apv1.png
modul0707_1row_pednoise_apv1.png
Attachment 7: modul0707_final_cal_apv0.png
modul0707_final_cal_apv0.png
Attachment 8: modul0707_final_cal_apv1.png
modul0707_final_cal_apv1.png
Attachment 9: modul0707_final_cmnoise_apv0.png
modul0707_final_cmnoise_apv0.png
Attachment 10: modul0707_final_cmnoise_apv1.png
modul0707_final_cmnoise_apv1.png
Attachment 11: modul0707_final_pednoise_apv0.png
modul0707_final_pednoise_apv0.png
Attachment 12: modul0707_final_pednoise_apv1.png
modul0707_final_pednoise_apv1.png
  7   Wed May 7 16:12:58 2008 Christian IrmlerSPS Testbeam June08modulemodule 12/08properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 22.2 nA Ibias (200 V) = 26.5 nA
Attachment 1: modul1208_1row_cal_apv0.png
modul1208_1row_cal_apv0.png
Attachment 2: modul0707_1row_cal_apv1.png
modul0707_1row_cal_apv1.png
Attachment 3: modul0707_1row_cmnoise_apv0.png
modul0707_1row_cmnoise_apv0.png
Attachment 4: modul0707_1row_cmnoise_apv1.png
modul0707_1row_cmnoise_apv1.png
Attachment 5: modul0707_1row_pednoise_apv0.png
modul0707_1row_pednoise_apv0.png
Attachment 6: modul0707_1row_pednoise_apv1.png
modul0707_1row_pednoise_apv1.png
Attachment 7: modul0707_final_cal_apv0.png
modul0707_final_cal_apv0.png
Attachment 8: modul0707_final_cal_apv1.png
modul0707_final_cal_apv1.png
Attachment 9: modul0707_final_cmnoise_apv0.png
modul0707_final_cmnoise_apv0.png
Attachment 10: modul0707_final_cmnoise_apv1.png
modul0707_final_cmnoise_apv1.png
Attachment 11: modul0707_final_pednoise_apv0.png
modul0707_final_pednoise_apv0.png
Attachment 12: modul0707_final_pednoise_apv1.png
modul0707_final_pednoise_apv1.png
  10   Wed May 7 19:05:08 2008 Christian IrmlerSPS Testbeam June08modulemodule 04/04properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 27.8 nA Ibias (200 V) = 32.7 nA
Attachment 1: modul0404_1row_cal_apv0.png
modul0404_1row_cal_apv0.png
Attachment 2: modul0404_1row_cal_apv1.png
modul0404_1row_cal_apv1.png
Attachment 3: modul0404_1row_cmnoise_apv0.png
modul0404_1row_cmnoise_apv0.png
Attachment 4: modul0404_1row_cmnoise_apv1.png
modul0404_1row_cmnoise_apv1.png
Attachment 5: modul0404_1row_pednoise_apv0.png
modul0404_1row_pednoise_apv0.png
Attachment 6: modul0404_1row_pednoise_apv1.png
modul0404_1row_pednoise_apv1.png
Attachment 7: modul0404_final_cal_apv0.png
modul0404_final_cal_apv0.png
Attachment 8: modul0404_final_cal_apv1.png
modul0404_final_cal_apv1.png
Attachment 9: modul0404_final_cmnoise_apv0.png
modul0404_final_cmnoise_apv0.png
Attachment 10: modul0404_final_cmnoise_apv1.png
modul0404_final_cmnoise_apv1.png
Attachment 11: modul0404_final_pednoise_apv0.png
modul0404_final_pednoise_apv0.png
Attachment 12: modul0404_final_pednoise_apv1.png
modul0404_final_pednoise_apv1.png
  11   Fri May 9 09:56:15 2008 Christian IrmlerSPS Testbeam June08modulemodule 06/03properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 26.5 nA Ibias (200 V) = 37.8 nA
Attachment 1: modul0603_1row_cal_apv0.png
modul0603_1row_cal_apv0.png
Attachment 2: modul0603_1row_cal_apv1.png
modul0603_1row_cal_apv1.png
Attachment 3: modul0603_1row_cmnoise_apv0.png
modul0603_1row_cmnoise_apv0.png
Attachment 4: modul0603_1row_cmnoise_apv1.png
modul0603_1row_cmnoise_apv1.png
Attachment 5: modul0603_1row_pednoise_apv0.png
modul0603_1row_pednoise_apv0.png
Attachment 6: modul0603_1row_pednoise_apv1.png
modul0603_1row_pednoise_apv1.png
Attachment 7: modul0603_final_cal_apv0.png
modul0603_final_cal_apv0.png
Attachment 8: modul0603_final_cal_apv1.png
modul0603_final_cal_apv1.png
Attachment 9: modul0603_final_cmnoise_apv0.png
modul0603_final_cmnoise_apv0.png
Attachment 10: modul0603_final_cmnoise_apv1.png
modul0603_final_cmnoise_apv1.png
Attachment 11: modul0603_final_pednoise_apv0.png
modul0603_final_pednoise_apv0.png
Attachment 12: modul0603_final_pednoise_apv1.png
modul0603_final_pednoise_apv1.png
  12   Fri May 9 10:00:34 2008 Christian IrmlerSPS Testbeam June08modulemodule 03/10properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 18.9 nA Ibias (200 V) = 25.5 nA
Attachment 1: modul0310_1row_cal_apv0.png
modul0310_1row_cal_apv0.png
Attachment 2: modul0310_1row_cal_apv1.png
modul0310_1row_cal_apv1.png
Attachment 3: modul0310_1row_cmnoise_apv0.png
modul0310_1row_cmnoise_apv0.png
Attachment 4: modul0310_1row_cmnoise_apv1.png
modul0310_1row_cmnoise_apv1.png
Attachment 5: modul0310_1row_pednoise_apv0.png
modul0310_1row_pednoise_apv0.png
Attachment 6: modul0310_1row_pednoise_apv1.png
modul0310_1row_pednoise_apv1.png
Attachment 7: modul0310_final_cal_apv0.png
modul0310_final_cal_apv0.png
Attachment 8: modul0310_final_cal_apv1.png
modul0310_final_cal_apv1.png
Attachment 9: modul0310_final_cmnoise_apv0.png
modul0310_final_cmnoise_apv0.png
Attachment 10: modul0310_final_cmnoise_apv1.png
modul0310_final_cmnoise_apv1.png
Attachment 11: modul0310_final_pednoise_apv0.png
modul0310_final_pednoise_apv0.png
Attachment 12: modul0310_final_pednoise_apv1.png
modul0310_final_pednoise_apv1.png
  13   Fri May 9 10:04:26 2008 Christian IrmlerSPS Testbeam June08modulemodule 05/05properties (noise, intcal), APVs bonded to the sensor
Module tested with 1 and 2 rows bonded to the sensor, respectively. HV = 100 V Ibias (100 V) = 18.0 nA Ibias (200 V) = 23.6 nA
Attachment 1: modul0505_1row_cal_apv0.png
modul0505_1row_cal_apv0.png
Attachment 2: modul0505_1row_cal_apv1.png
modul0505_1row_cal_apv1.png
Attachment 3: modul0505_1row_cmnoise_apv0.png
modul0505_1row_cmnoise_apv0.png
Attachment 4: modul0505_1row_cmnoise_apv1.png
modul0505_1row_cmnoise_apv1.png
Attachment 5: modul0505_1row_pednoise_apv0.png
modul0505_1row_pednoise_apv0.png
Attachment 6: modul0505_1row_pednoise_apv1.png
modul0505_1row_pednoise_apv1.png
Attachment 7: modul0505_final_cal_apv0.png
modul0505_final_cal_apv0.png
Attachment 8: modul0505_final_cal_apv1.png
modul0505_final_cal_apv1.png
Attachment 9: modul0505_final_cmnoise_apv0.png
modul0505_final_cmnoise_apv0.png
Attachment 10: modul0505_final_cmnoise_apv1.png
modul0505_final_cmnoise_apv1.png
Attachment 11: modul0505_final_pednoise_apv0.png
modul0505_final_pednoise_apv0.png
Attachment 12: modul0505_final_pednoise_apv1.png
modul0505_final_pednoise_apv1.png
  17   Sun Jul 4 05:48:36 2010 Christian IrmlerBELLE UpgradesourceOrigami 6 - module 1run002: first analysis results

Run name: run002

Run type: 0 (Hardware (Normal Run))
Comments:
After ~40min warmup
HV=80
90Sr 1mCi source - moved compared to run001
multi6

Max. Events=100000      Trg delay=25

Origami 6 module #1
w/o cooling
sensor: B2HPK_10938-9239_8

n-side: all 4 APVs read out
p-side: APV #0 to #3  read out, analog output of #4 and #5 were not connected to FADC board

 

 

Attachment 1: run002_cluster_sum.txt
Analysis of run002

Peak Mode, 3 x 200 initevents (first 10 skipped) + 99400 events
Number hybrids:  2	number zones:  2	 number sensors:  1
Using calibration file intcal001
No pedestal correction file
Seed/Neighbor/Cluster/Noisy Strips Cuts [RMS noise]: 5.0/3.0/5.0
Min. hitlength:   3


Comments:
After ~40min warmup
HV=80
90Sr 1mCi source - moved compared to run001
multi6



Analysis date: 04.07.2010 05:40:47


Analysis settings:
 runname: run002_cluster
 clock: 40.00 MHz
 datafilepath: ./
 outputpath: ./
 subevents:  6
 fitmode: 2 (cal. fit)
 options: hr




Results:

ModuleName           ZoneType    Ch    OKCh     OK%   Entries    MClW    MPSignal   Noise   MPSNR   HpSE  Occup SigSlop SigInt SigRes PtiSlop PtiInt  PtiRes ClwSlop ClwInt  ClwRes
Origami6_mod1_p   Orgami 6"    512    512   100.0     34659    1.87    24436.5   3330.4    6.74   0.25   0.80   0.95   0.00  6651.0   1.00   -17.63   7.47    1.00    0.21   0.86
Origami6_mod1_n   Orgami 6"    512    508    99.2     95601    1.93    23801.7    962.7   17.08   1.02   0.79   0.95   0.00  6651.0   1.00   -17.63   7.47    1.00    0.21   0.86




Attachment 2: run002_cluster_noi_0.ps
run002_cluster_noi_0.ps
Attachment 3: run002_cluster_sig_0.ps
run002_cluster_sig_0.ps
Attachment 4: run002_cluster_hit_0.ps
run002_cluster_hit_0.ps
Attachment 5: run002_cluster_hpt_0.ps
run002_cluster_hpt_0.ps
Attachment 6: run002_cluster_clw_0.ps
run002_cluster_clw_0.ps
Attachment 7: run002_cluster_cor_0.ps
run002_cluster_cor_0.ps
  15   Wed Oct 7 14:23:35 2009 Dieter UhlBELLE Upgradehybrid#4hybrid-pitchadapter

opens at upper coat

pitchadapter4_upper_coat_opens.gif

 

shorts at upper coat

pitchadapter4_upper_coat.gif

 

opens at lower coat

pitchadapter4_lower_coat_opens.gif

 

shorts at lower coat

pitchadapter4_lower_coat.gif

  16   Wed Oct 7 14:24:06 2009 Dieter UhlBELLE Upgradehybrid#5hybrid-pitchadapter

shorts at upper coat

pitchadapter5_upper_coat.gif

 

opens at upper coat

pitchadapter5_upper_coat_opens.gif

 

shorts at lower coat

pitchadapter5_lower_coat.gif

 

opens at lower coat

pitchadapter5_lower_coat_opens.gif

  37   Tue May 19 09:31:50 2015 Hao Yin   Noise Test ITA

Everything works except L3 p-side.

The config file is shown in the following:

### Original Configuration File Name: /home/katsuro/tuxdaq_devel/config/delay_scan.latency_scan.cfg ###
### Original Configuration File Name: /home/katsuro/tuxdaq_devel/config/delay_scan.updated.cfg ###
#
# This is the default config file for the APV_BELLE software
#
#
# Lines preceded by a # or ; sign are ignored.
#
# [rem] comments a whole section until the next section start marked by [xxx] .
#

[soc]
ena = 0
addr =
port = 9999

# [vme]
# VME addresses are given in the format
#  {module_name} = {vme_module_number},{vme_address_hex}
#  nec ... NECO module
#  adf ... particular FADC module
#
# Please note that the address ranges are not defined here,
# they are implicitly given by the hardware.
# Module numbers must fill from 0 (this is not checked).
# Please note that no range checking is performed.
# There is no access to VME modules that are not included in this list,

[vme]
nec = 0,0xaa000000

# p side
adf = 0,0x01000000
adf = 1,0x81000000
# n side

# [nec]
# NECO related information
#  mod = 0|1,{shift_register_delay},{adc_range},{win_delay},{win_length},{dead_time},{time_lat},{max_trg}
#          (default: 0,75,0,50?,900?,36,2,1)
#  res = {list of entries in reset sequence}                (default: 2,4)
#  cal = {list of entries in cal sequence}            (default: 2,3,250,251)
#  sw5 = {list of entries in single cal sequence}        (default: 2,3)
#  str = {list of entries in software trigger sequence}        (default: 75)
#  htr = {list of entries in hardware trigger sequence}        (default: 74)
#
# mod specifies to use either the sequencer (0) or the shift register (1) for hardware trigger and the
#  delay of the shift register (0..255); adc_range (0=1Vpp, 1=2Vpp) -- ignored; win_delay and win_length define
#  the starting point (relative to the APV trigger) and length of the ADC gate in transparent mode; dead_time is
#  the number of 254MHz clock cycles which are set to zero for time measurement after an incoming trigger;
#  time_lat is the latency for time measurement in terms of 40MHz clock cycles; max_trg is the number of incoming
#  triggers which required to activate the veto logic (usually 1; 0 completely disables the veto logic)
# res, cal, sw5, str and htr are containing the bits to set in the 256-element sequencer memory (nothing is set at -1)
# Please note that cal+str together produce a calibration request plus subsequent normal trigger, so the time
#  between them is the latency. sw5 is used to send a single cal request to achieve the correct polarity in
#  case the APV inverter is turned on (this feature only works for entire MAMBOs halves = groups of 3 REBOs)
#
# These settings are quite fragile! Do not modify until you know exactly what you are doing.

[nec]

# 30m cables, 40mhz, Tp=50ns, single-trigger
#mod = 0,75,0,70,250,36,2,1
#htr = 64,-1,-1,-1,-1,-1,-1,-1
#str = 100,-1,-1,-1,-1,-1,-1,-1

# TESTBEAM Nov 07, 30m cables, 40mhz, Tp=50ns, multi-trigger (6 samples)
# mod = {0:max triggers, 1:latency, 2:software trigger latency, do not care about the rest}
mod = 0,120,250,0,0,0,0,0

stp = 150,-1,-1,-1,-1,-1,-1,-1
stn = 150,-1,-1,-1,-1,-1,-1,-1

#common settings
rep =  2,-1,-1,-1,-1,-1,-1,-1
ren =  2,-1,-1,-1,-1,-1,-1,-1

cap =  2,52,-1,-1,-1,-1,-1,-1
can =  52,250,-1,-1,-1,-1,-1,-1

# location of file to fir filter can be rel. path
[fir]
# enable fir 1 true otherwise false
ena = 0
# path to fir coef file
pat = /mnt/data/LabLadder5/FIR_L5_class_b-_20150429153730.fir

# [daq]
# DAQ related specifications are given in the format
#  ads = {N},{search_max_subevents},0,x
#  ini = {initevents},{readout_mode},0,x
#  deh = {module_position},{apv_position},0,x
#  i2t = {N},0,0,x
#  pat = 0,0,0,{data_file_path}
#  clk = {N},{Delay25 frequency range},0,x
#  pdl = {Trigger input delay},0,0,x
#  crd = {crate_number},{clkdel},{trgdel},x
#
# ads N gives the number of samples that are read out from the FIFO1 in transparent mode, search_max_subevents is the
#  maximum number of subevents to search for within one ADC stream (default=1).
# ini: initevents is the number of software triggers in the beginning of a run for pedestal and noise
# evaluation. At the beginning of each run, 2*initevents are generated by software, after that the
# selected trigger source (hardware, software of calibration) is activated. The initial evaluation
# events are written to disk as normal events are.
# ini: readout_mode defines whether events beyond the initevents are read in raw transparent mode from FIFO1 (0) or
#  in processed mode (1) where only hit information is read from FIFO3
# deh is the APV chip for which single strip histograms are recorded
# i2t is the maximum number of I2C retries in case of failure
# pat specifies the save path for data files (must include a trailing backslash!)
# clk gives the system clock period in integer ns (25 max.) and the frequency range for the Delay25 chip:
#  0...40 MHz, 1...80 MHz, 2...32 MHz, 3...64 MHz
# pdl specifies the delay setting for the trigger input in 0.5ns steps (0..49)
# crd define the global clock and trigger delays between NECO and SVD3_buffer for crates 0 and 1
#  NOTE: clock and trigger is NOT propagated to any crate(s) NOT specified here


[daq]

# TESTBEAM Nov 07
#Standard
#ads = 600,3,0,x

# TESTBEAM Nov 07
#Multitrigger (6)
#~ ads = 940,6,0,x
ads = 250,1,0,x

# RAW (transparent mode) readout
ini = 300,0,0,x

# PROCESSED readout
#ini = 300,1,0,x

deh = 1,0,0,x
i2t = 5,0,0,x
pat = 0,0,0,/mnt/data/LabLadder5

#standard 40mhz clock (25ns)
clk = 25,0,0,x
pdl = 25,0,0,x

#crate distribution delays (set to mid-range to allow adjustments in both directions)
crd = 0,25,25,x

#we don't use crate 1, so we don't set any delay here -> no clock/trigger to crate 1
###crd = 1,25,25,x


# [hit]
# Hit recognition variables are specified here
#  hcs = {hitcut_/home/hao/Desktop/vme_tests/vme_test_caen/Releaseseed_strip},{hitcut_neighbor_strips}
#  nok = {x.x},0
#  
#
# hcs gives seed and neighbor hit cuts in units of strpAPVip sigma
# nok states the threshold over average noise at which strips are excluded from further analysis (to exclude noisy strips)

[hit]
# si sensor
hcs = 5.0,3.0

# do not exclude strips
nok = 2000.0,0


# [cal]
# Calibration related data
#  lvl = {level},0
#  lat = {latbeg},{latend}
#  sam = {average_samples},{number of samples in 6-tuple mode}
#  grp = {number_of_groups},0
#  lg6 = {latency},{group}
#  lv6 = {startlevel},{endlevel}
#
# lvl is the CLVL amplitude (0..255), 1 is 625e-, 36 is 1 MIP (22500e-) nominally, in reality 26 is 1 MIP
# lat is the Latency range to
#~ cover (latend-latbeg>=2, latend-latbeg<=15)
# sam is the number of samples to average per position for normal and 6-tuple modes
# grp is how many groups to scan (<=8), first group is strips 0,8,16,..., second group is 1,9,17,..., ...
# lg6 defines the latency in 6-tuple mode and which group to observe in that mode
# lv6 defines the scan range of amplitude in 6-tuple mode

[cal]
#real 1 MIP level (22400e)
lvl = 26,0

#real 5 MIPs level
#lvl = 130,0/home/hao/Desktop/vme_tests/vme_test_caen/Release

#LAT=95/98 Calibration (short display)
#lat = 89,100

#LAT=95/98 Calibration (short display for >=50mhz)
#lat = 81,98

#LAT=95/98 Calibration (long peak mode tail display)
lat = 75,100

#common settings
sam = 50,150
grp = 8,0

#6-tuple mode settings
lg6 = 97, 1
#lv6 =  1,95
lv6 =  50,52

 


# [i2c]
# This section defines one or more I2C sets for the APV25. In the [mod] section, those sets are referenced to by their number.
#  ia2 = {number},{mode},{lat},{ipre},{ipcasc},{ipsf},{isha},{issf},{ipsp},{imuxin},{vfp},{vfs},{vpsp},{muxgain}
#
# The I2C settings must be individually numbered (ascending from 0). The easiest case is to use the same
# settings for all chips of one type, but one could go so far to use separate settings for each chip.
# vadj/vpsp is set individually for each apv in the [mod] section, the value specified here is meaningless.

[i2c]

# apv25s1, peak, inverter ON, Tp=50ns, (p side)
ia2 = 0, 63, 23, 98, 52, 34, 34, 34, 55, 34, 30, 60, 0, 4

# apv25s1, peak, inverter OFF, Tp=50ns, (n side)
ia2 = 1, 31, 23, 98, 52, 34, 34, 34, 55, 34, 30, 60, 0, 4


# apv25s1, multi-peak, inverter ON, Tp=50ns, (p side)
#~ ia2 =          0,    61,   17,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4

# apv25s1, multi-peak, inverter OFF, Tp=50ns, (n side)
#~ ia2 =          1,    29,   17,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4

# apv25s1, peak, inverter ON, Tp=50ns, (p side), for cooled APV chips, -10C
#~ ia2 =          0,    61,   17,    85,      45,    30,    50,    30,    48,      30,   30,   50,     0,       4

# apv25s1, multi-peak, inverter OFF, Tp=50ns, (n side), for cooled APV chips, -10C
#~ ia2 =          1,    29,   17,    85,      45,    30,    34,    30,    48,      30,   30,   60,     0,       4


# [mod]
# Detector module (actually hybrid) specifications are given in the format
#  mod = {module_position},{crate_number},{fadc_number},{adc_number},{hybrid_number},m,{adc_delay},0,0,0,0,0,0,{Name}
#  apv = {module_position},{apv_position},{i2c_address},{i2c_settings},{vadj/vpsp},x,0,0,{fadc_offset},{fadc_number},{fadc_channel},{fadc_clkdelay [0..49]},{AD8128_gain},x
#
# mod gives the hybrid/module properties: The position counts from 0 to 7 in beam direction,
#  Name must not contain blanks ("_" is allowed).
# apv describes the chips located on a hybrid
#  and the ADC channel where they are read out, either a Vienna ADC (a) or a FED (f).
# The ADC offset is only available with the Vienna ADCs and shifts the baseline.
#~ # The individual chip vadj setting dominates over the [i2c] setting.

# p-side
[mod]
mod = 1,0,0,0,0,m,24,0,0,0,0,0,0,fw_p

apv = 1,0,34,0,30,x,0,0,0,0,0,0,0,x
apv = 1,1,36,0,30,x,0,0,0,0,1,0,0,x
apv = 1,2,38,0,30,x,0,0,0,0,2,0,0,x
apv = 1,3,40,0,30,x,0,0,0,0,3,0,0,x
apv = 1,4,42,0,30,x,0,0,0,0,4,0,0,x
#~ apv = 1,5,44,0,30,x,0,0,0,0,5,0,0,x


[mod]
mod = 2,0,0,1,1,m,38,0,0,0,0,0,0,ce_p

apv = 2,0,34,0,30,x,0,0,0,0,6,0,0,x
apv = 2,1,36,0,30,x,0,0,0,0,7,0,0,x
apv = 2,2,38,0,30,x,0,0,0,0,8,0,0,x
apv = 2,3,40,0,30,x,0,0,0,0,9,0,0,x
apv = 2,4,42,0,30,x,0,0,0,0,10,0,0,x
apv = 2,5,44,0,30,x,0,0,0,0,11,0,0,x

[mod]
mod = 3,0,0,2,2,m,40,0,0,0,0,0,0,-z_p

apv = 3,0,34,0,30,x,0,0,0,0,12,0,0,x
apv = 3,1,36,0,30,x,0,0,0,0,13,0,0,x
apv = 3,2,38,0,30,x,0,0,0,0,14,0,0,x
apv = 3,3,40,0,30,x,0,0,0,0,15,0,0,x
apv = 3,4,42,0,30,x,0,0,0,0,16,0,0,x
apv = 3,5,44,0,30,x,0,0,0,0,17,0,0,x

[mod]
mod = 4,0,0,3,3,m,24,0,0,0,0,0,0,bw_p

apv = 4,0,34,0,30,x,0,0,0,0,18,0,0,x
apv = 4,1,36,0,30,x,0,0,0,0,19,0,0,x
apv = 4,2,38,0,30,x,0,0,0,0,20,0,0,x
apv = 4,3,40,0,30,x,0,0,0,0,21,0,0,x
apv = 4,4,42,0,30,x,0,0,0,0,22,0,0,x
apv = 4,5,44,0,30,x,0,0,0,0,23,0,0,x

[mod]
#~ mod = 5,0,0,4,4,m,24,0,0,0,0,0,0,L3_p

#~ apv = 5,0,34,0,30,x,0,0,0,0,24,0,0,x
#~ apv = 5,1,36,0,30,x,0,0,0,0,25,0,0,x
#~ apv = 5,2,38,0,30,x,0,0,0,0,26,0,0,x
#~ apv = 5,3,40,0,30,x,0,0,0,0,27,0,0,x
#~ apv = 5,4,42,0,30,x,0,0,0,0,28,0,0,x
#~ apv = 5,5,44,0,30,x,0,0,0,0,29,0,0,x

[mod]
mod = 6,0,0,5,5,m,24,0,0,0,0,0,0,L4_p

apv = 6,0,34,0,30,x,0,0,0,0,30,0,0,x
apv = 6,1,36,0,30,x,0,0,0,0,31,0,0,x
apv = 6,2,38,0,30,x,0,0,0,0,32,0,0,x
apv = 6,3,40,0,30,x,0,0,0,0,33,0,0,x
apv = 6,4,42,0,30,x,0,0,0,0,34,0,0,x
apv = 6,5,44,0,30,x,0,0,0,0,35,0,0,x

[mod]
mod = 7,0,0,6,6,m,24,0,0,0,0,0,0,L5_p

apv = 7,0,34,0,30,x,0,0,0,0,36,0,0,x
apv = 7,1,36,0,30,x,0,0,0,0,37,0,0,x
apv = 7,2,38,0,30,x,0,0,0,0,38,0,0,x
apv = 7,3,40,0,30,x,0,0,0,0,39,0,0,x
apv = 7,4,42,0,30,x,0,0,0,0,40,0,0,x
apv = 7,5,44,0,30,x,0,0,0,0,41,0,0,x

[mod]
mod = 8,0,0,7,7,m,24,0,0,0,0,0,0,L6_p

apv = 8,0,34,0,30,x,0,0,0,0,42,0,0,x
apv = 8,1,36,0,30,x,0,0,0,0,43,0,0,x
apv = 8,2,38,0,30,x,0,0,0,0,44,0,0,x
apv = 8,3,40,0,30,x,0,0,0,0,45,0,0,x
apv = 8,4,42,0,30,x,0,0,0,0,46,0,0,x
apv = 8,5,44,0,30,x,0,0,0,0,47,0,0,x

#---------------------------------------------------- n-side
[mod]
mod = 9,0,1,0,0,m,28,0,0,0,0,0,0,fw_n

apv = 9,0,34,1,30,x,0,0,5,1,0,0,0,x
apv = 9,1,36,1,30,x,0,0,5,1,1,0,0,x
apv = 9,2,38,1,30,x,0,0,5,1,2,0,0,x
apv = 9,3,40,1,30,x,0,0,5,1,3,0,0,x

[mod]
mod = 10,0,1,1,1,m,33,0,0,0,0,0,0,ce_n

apv = 10,0,34,1,30,x,0,0,5,1,6,0,0,x
apv = 10,1,36,1,30,x,0,0,5,1,7,0,0,x
apv = 10,2,38,1,30,x,0,0,5,1,8,0,0,x
apv = 10,3,40,1,30,x,0,0,5,1,9,0,0,x

[mod]
mod = 11,0,1,2,2,m,35,0,0,0,0,0,0,-z_n

apv = 11,0,34,1,30,x,0,0,5,1,12,0,0,x
apv = 11,1,36,1,30,x,0,0,5,1,13,0,0,x
apv = 11,2,38,1,30,x,0,0,5,1,14,0,0,x
apv = 11,3,40,1,30,x,0,0,5,1,15,0,0,x

[mod]
mod = 12,0,1,3,3,m,27,0,0,0,0,0,0,bw_n

apv = 12,0,34,1,30,x,0,0,5,1,18,0,0,x
apv = 12,1,36,1,30,x,0,0,5,1,19,0,0,x
apv = 12,2,38,1,30,x,0,0,5,1,20,0,0,x
apv = 12,3,40,1,30,x,0,0,5,1,21,0,0,x

[mod]
mod = 13,0,1,4,4,m,24,0,0,0,0,0,0,L3_n

#~ apv = 13,0,34,0,30,x,0,0,0,1,24,0,0,x
apv = 13,1,36,0,30,x,0,0,0,1,25,0,0,x
apv = 13,2,38,0,30,x,0,0,0,1,26,0,0,x
apv = 13,3,40,0,30,x,0,0,0,1,27,0,0,x
apv = 13,4,42,0,30,x,0,0,0,1,28,0,0,x
#~ apv = 13,5,44,0,30,x,0,0,0,1,29,0,0,x

[mod]
mod = 14,0,1,5,5,m,24,0,0,0,0,0,0,L4_n

apv = 14,0,34,0,30,x,0,0,0,1,30,0,0,x
apv = 14,1,36,0,30,x,0,0,0,1,31,0,0,x
apv = 14,2,38,0,30,x,0,0,0,1,32,0,0,x
apv = 14,3,40,0,30,x,0,0,0,1,33,0,0,x
#~ apv = 14,4,42,0,30,x,0,0,0,1,34,0,0,x
#~ apv = 14,5,44,0,30,x,0,0,0,1,35,0,0,x

[mod]
mod = 15,0,1,6,6,m,24,0,0,0,0,0,0,L5_n

apv = 15,0,34,0,30,x,0,0,0,1,36,0,0,x
apv = 15,1,36,0,30,x,0,0,0,1,37,0,0,x
apv = 15,2,38,0,30,x,0,0,0,1,38,0,0,x
apv = 15,3,40,0,30,x,0,0,0,1,39,0,0,x
#~ apv = 15,4,42,0,30,x,0,0,0,1,40,0,0,x
#~ apv = 15,5,44,0,30,x,0,0,0,1,41,0,0,x

[mod]
mod = 16,0,1,7,7,m,24,0,0,0,0,0,0,L6_n

apv = 16,0,34,0,30,x,0,0,0,1,42,0,0,x
apv = 16,1,36,0,30,x,0,0,0,1,43,0,0,x
apv = 16,2,38,0,30,x,0,0,0,1,44,0,0,x
apv = 16,3,40,0,30,x,0,0,0,1,45,0,0,x
#~ apv = 16,4,42,0,30,x,0,0,0,1,46,0,0,x
#~ apv = 16,5,44,0,30,x,0,0,0,1,47,0,0,x

  38   Tue May 19 10:08:53 2015 Hao Yin   FADC system setup success

3 FADC. All Channel/APV25 running (except L3 n first and last -> not connected (bonding))

n-side: all connectors

p-side: 0x01: 1, 2, 4 and 0x02, 1 with L3 p and L4 p (Telescope)

Possible error: Blue connector cable between FADC and DockBox!!!!

 

Bad channels:

telescope: L5-p 3. APV25,

                  L3-p 0. and 5. APV25

Ladder: all chips working.

  39   Tue May 19 10:57:19 2015 Hao YinBelle IIsystemFIRFIR filter

first fir filter run:

# 1:[0x[FADC ID] in hex], 2:[APV25 ChannelNr], 3-10:[fir coef in float]

0x1,0,1.13520608876,-0.0660414994664,-0.0344046528212,-0.0160940592489,-0.0188049576486,-0.00405635272718,0.0022422085805,0.0019532245698
0x1,1,1.12295253975,-0.0592944656544,-0.0336020250522,-0.00917724891395,-0.0223869593454,-0.001090399382,0.00157177453262,0.00102678406945
0x1,2,1.10960105507,-0.0491151980644,-0.0216084507671,-0.0232756364146,-0.0192721778229,4.93000093422e-05,0.00212840263425,0.00149270535105
0x1,3,1.11519364558,-0.0493775479933,-0.0376704950557,-0.0146504253798,-0.0165884582123,-0.000600824253816,0.00322162604136,0.000472479268962
0x1,4,1.13426016899,-0.0667854171497,-0.0264286139713,-0.0197774154583,-0.0170046741967,-0.00226419416266,6.20867200564e-06,-0.00200606272088
0x1,6,1.09850375545,-0.0475251007723,-0.0321323204114,-0.0049982962069,-0.0154525510063,-0.00712038830107,0.00765760772637,0.00106729351877
0x1,7,1.10490718424,-0.0580918106828,-0.0189135662712,-0.0225866865555,-0.00706610584315,-0.00210905052809,0.00213700433548,0.00172303130321
0x1,8,1.11845599607,-0.0562756903334,-0.0272202891264,-0.0192283627542,-0.0141171590415,-0.00540422529399,0.00284726648764,0.000942463991129
0x1,9,1.13075955486,-0.066498502226,-0.0225582412623,-0.0174951308602,-0.0223318702725,-0.00471388605456,0.00124707622294,0.00159099959515
0x1,10,1.13973122772,-0.066071722433,-0.0240532798656,-0.0291078118432,-0.0202488190761,-0.00424019931205,0.00244145856313,0.00154914624533
0x1,11,1.15204186506,-0.0967928207722,-0.0308635609727,-0.0115580342947,-0.0118777292178,-0.00266593668058,-0.000429035282974,0.00214525215939
0x1,12,1.11062672911,-0.066120693735,-0.0168494684576,-0.0180340737077,-0.012168747551,-0.0017189363387,0.00238902556317,0.0018761651176
0x1,13,1.12123438424,-0.0670926333638,-0.0225282450919,-0.00610731605417,-0.0237712056312,-0.00507131011027,0.00341396795771,-7.76419501721e-05
0x1,14,1.09212680318,-0.0526830770541,-0.015524774204,-0.00886886801082,-0.0174855732906,-0.00167161734671,0.00261972950703,0.00148737721598
0x1,15,1.10446592929,-0.0478821284168,-0.0217508141036,-0.0146475583237,-0.0180290216155,-0.00389357225933,0.00205683237477,-0.000319666947371
0x1,16,1.12307725483,-0.0641235921299,-0.0276059676118,-0.0121047284408,-0.0214462734311,-0.00147871495864,0.00364815395595,3.38677884642e-05
0x1,17,1.1078157527,-0.0553763881527,-0.0255148556727,-0.00949270467278,-0.019304208005,-0.00125438962752,0.00210848765373,0.00101830578048
0x1,18,1.10668859528,-0.0580021816733,-0.0203264578138,-0.0153159545078,-0.0141748321542,-0.00187318995441,0.00352377559548,-0.000519754771162
0x1,19,1.10967649916,-0.066889747293,-0.00558505164567,-0.0269402450119,-0.0134795008908,0.00010776519614,0.00254658966222,0.000563690825961
0x1,20,1.11395145106,-0.0601557674242,-0.0298254264592,-0.00347766182254,-0.0223889139775,0.000710017854686,0.0016453764566,-0.000459075685311
0x1,21,1.10090162739,-0.041185875479,-0.0195061953598,-0.0293163002613,-0.0123034799744,-0.00084231769215,0.00100845261681,0.00124408876139
0x1,22,1.11964816009,-0.0658594545538,-0.0331572127768,-0.00756629965084,-0.011254866642,-0.00422818555679,0.00100618460285,0.00141167448927
0x1,23,1.10989860302,-0.0627755158227,-0.0156813522536,-0.0209003697758,-0.0123571300411,-0.00074226793831,0.001633396925,0.000924635884661
0x1,36,1.20303564748,-0.155850891914,-0.0145930147946,-0.0215171487752,-0.0142425044937,-0.00141639459333,0.000436750590692,0.00414755650155
0x1,37,1.16401336407,-0.10146271483,-0.0243067046593,-0.017209961903,-0.0252808382812,-0.00112564187466,0.00254240666672,0.0028300908075
0x1,38,1.15047541013,-0.104302355887,-0.0106342282626,-0.031015587005,-0.0172655310607,0.00666189117189,0.0025094241298,0.00357097678602
0x1,40,1.17667578085,-0.13880708599,-0.0268644708874,-0.0200113699618,-0.00606000452395,0.00724205443689,0.00438917698701,0.00343591908584
0x1,41,1.02701567338,0.011498360508,-0.0398757680676,-0.00245389652267,-0.0139465091027,0.00240398424895,0.0117191753237,0.00363898023083
0x1,42,1.12396724545,-0.0685566349941,-0.0283538781767,-0.0179360377423,-0.00814272036001,-0.00451334706977,0.0039761075112,-0.000440734622417
0x1,43,1.13227200482,-0.0728818783682,-0.015551624631,-0.0247075704334,-0.01493993764,-0.00891590754235,0.00389181151236,0.000833102282119
0x1,44,1.16894293102,-0.112860085149,-0.0214150870499,-0.0224706095311,-0.0134931583984,-0.00276361904314,0.00265016997345,0.00140945817888
0x1,45,1.10753801191,-0.0444487974221,-0.0256609290791,-0.0231214149431,-0.0151286303192,-0.00249036365029,0.00203916964606,0.00127295385451
0x1,46,1.11346039175,-0.0558804282008,-0.0346834704793,-0.00155148900517,-0.0207626070206,-0.00407948270778,0.00318528021394,0.000311805446446
0x1,47,1.10514430327,-0.0655722830244,-0.0123202218946,-0.0157385967817,-0.0110582401612,-0.00125154790562,-0.00302521550973,0.00382180200598


0x81,0,1.1346419846,-0.0737396468063,-0.0322354628053,-0.0152256065858,-0.00484040764213,-0.0171661306843,0.00516194347229,0.00340332644827
0x81,1,1.13877781968,-0.0735528369577,-0.0175602043517,-0.0329985577567,-0.0160936758009,-0.00271254955069,0.00194176796253,0.00219823677648
0x81,2,1.13854804792,-0.0629129015173,-0.0287888426751,-0.0300600003103,-0.0111792687179,-0.0104427262825,0.00251849591767,0.0023171956695
0x81,3,1.1371275087,-0.0866470643512,-0.0053452287457,-0.0346178157976,-0.017845130908,0.00861643890645,-0.00373697696356,0.00244826915852
0x81,6,1.12636316339,-0.0739611957149,-0.00499735606095,-0.0294210089113,-0.0183894157148,-0.00686916354284,0.0046199231595,0.00265505339344
0x81,7,1.13080005921,-0.0568637860737,-0.0360729388839,-0.0149346909531,-0.0120237900808,-0.0149438513755,0.00179073710334,0.002248261052
0x81,8,1.14057682695,-0.0748092570289,-0.0164236225694,-0.0284950881231,-0.02211361223,-0.0023069962108,0.00162330533578,0.0019484438737
0x81,9,1.13231031612,-0.049591511103,-0.0561986120336,-0.0132431189526,-0.00726346456214,-0.00964690537993,0.00140082973596,0.00223246617691
0x81,12,1.12569399018,-0.0547083884589,-0.0366409862547,-0.000452877499146,-0.0261220961438,-0.0119500069173,0.00228538481423,0.00189498028266
0x81,13,1.14073390895,-0.047420739531,-0.045962865521,-0.0294163946381,-0.00471168750835,-0.0159507549081,0.00124182373377,0.00148670941996
0x81,14,1.12876267785,-0.0485328177845,-0.0342998755847,-0.0103809235608,-0.0252294936162,-0.0121595952903,-0.00141301872989,0.00325304671174
0x81,15,1.12621908731,-0.0671880114658,-0.0265077431275,-0.0328947207599,0.00568260919965,-0.00824053581943,0.00186219324855,0.00106712141852
0x81,18,1.13963608013,-0.086480457715,-0.0169397592634,-0.0319940468824,0.00519799234608,-0.0146822034458,0.00358954919294,0.00167284563829
0x81,19,1.13047028306,-0.0646519343548,-0.026672435949,-0.0119356422405,-0.0210176112193,-0.0104939850543,0.00377041709352,0.000530908662749
0x81,20,1.13092450177,-0.0680966108617,-0.0168070169979,-0.0280056903877,-0.00573344789056,-0.0167625964976,0.00304279744114,0.00143806342079
0x81,21,1.1280312308,-0.0608889388742,-0.0309420313672,-0.00691762399431,-0.0236958905946,-0.0104164045556,0.00130495020813,0.00352470837998
0x81,25,1.1296755081,-0.0746859074853,-0.0205954242883,-0.0244897605658,-0.00775725982806,-0.00821100122647,0.00435689667808,0.00170694861117
0x81,26,1.11402153936,-0.0471056752741,-0.0312185125156,-0.00978039493063,-0.0232253813458,-0.00799071227868,0.00461326906176,0.000685867921246
0x81,27,1.13473474344,-0.0648332520734,-0.0262786314876,-0.0238367801233,-0.0140247880765,-0.011639596857,0.00347973263577,0.00239857254364
0x81,28,1.11027356969,-0.0486111898767,-0.0325295694349,-0.0151594427815,-0.0262492012787,0.00836124760589,0.00269625971097,0.0012183263657
0x81,30,1.15806862546,-0.0915049308626,-0.030418276013,-0.0204160899631,-0.00760979835282,-0.0140271160807,0.00279582280868,0.00311176300293
0x81,31,1.14841425295,-0.0763133572256,-0.02663420288,-0.019300393347,-0.0139984128619,-0.0177005613178,0.00233649114043,0.00319618353727
0x81,32,1.14043467472,-0.0635139668171,-0.0402176389786,-0.0121297513247,-0.00213093613794,-0.0271057809327,0.0026296665786,0.00203373289516
0x81,33,1.15624660194,-0.0874090224709,-0.0287822001388,-0.0169936793776,-0.0171042793218,-0.012104143223,0.00404409701778,0.00210262557312
0x81,36,1.16660238186,-0.0924819427687,-0.0303331102507,-0.0188835245149,-0.0090941131968,-0.0191787112873,0.00209441551771,0.00127460463717
0x81,37,1.16442387119,-0.0857205682843,-0.0325383797236,-0.0243703882572,-0.0232163953234,-0.00282407181448,0.0028453747938,0.00140055742109
0x81,38,1.16247928567,-0.0814777437741,-0.0292056180626,-0.0210108870892,-0.00722355497349,-0.0281524468425,0.00189816027024,0.0026928048006
0x81,39,1.1512737285,-0.0995203178592,-0.0445587166697,-0.00371616776232,-0.0134941378531,0.00643372943984,0.00277294789689,0.000808934306217
0x81,42,1.1233839551,-0.065521197914,-0.0297520105423,-0.0141398488435,-0.00643980448673,-0.0133715081287,0.00252666448388,0.00331375033598
0x81,43,1.13806915375,-0.0545414824928,-0.0302498977742,-0.0172931828413,-0.0123805965382,-0.0265588149812,0.000472130899848,0.0024826899779
0x81,44,1.13104434537,-0.0781162345656,-0.0248547320969,-0.00683951152706,-0.0139459602411,-0.0143259891584,0.0060398862445,0.00099819597646
0x81,45,1.13177563162,-0.0595406637197,-0.0172559184362,-0.0202629075059,-0.0154636502219,-0.020961366092,-0.000312186280437,0.00202106063685


0x2,0,1.127309074,-0.0948338711073,0.00689719469771,-0.0170349776264,-0.0223302070292,-0.00236607726527,0.000717732261,0.00164113206622
0x2,1,1.13988103523,-0.0533547201615,-0.0496425465023,-0.0210709219886,-0.00819664293734,-0.0128284920008,0.00296497881564,0.00224730954422
0x2,2,1.12453626535,-0.0767737939923,-0.00678046632606,-0.00692833849934,-0.0178481654123,-0.0211208298254,0.00303652803537,0.00187880067155
0x2,3,1.12355217117,-0.0452038329571,-0.0425165874838,-0.0266053909465,0.00131478702089,-0.0152754798914,0.00185764643285,0.00287668665636
0x2,4,1.12780688614,-0.078547795853,-0.00897925063613,-0.00741002481053,-0.0219124778579,-0.0136240905374,0.00167324818666,0.000993505370944
0x2,5,1.1272300393,-0.0518133601752,-0.057902341061,-0.0166745694423,0.00645962734434,-0.0115348115196,0.0015879143414,0.00264750121376
0x2,6,1.16294812226,-0.0810614625806,-0.0508222204296,-0.0319508026489,-0.00887291125248,0.0044270137078,0.00173410354583,0.00359815739829
0x2,7,1.15494699746,-0.0912406213316,-0.0178104535909,-0.0120709715902,-0.0258338475647,-0.0116185923916,0.00106440614262,0.00256308286688
0x2,8,1.16877204094,-0.0732074670879,-0.0476675794632,-0.0303111680397,-0.00956549220998,-0.01213186048,0.00144680037372,0.00266472597058
0x2,9,1.15062073392,-0.0967451974964,0.00197835599773,-0.0228648411954,-0.0159059742493,-0.0220699895362,0.00284202183566,0.00214489072124
0x2,10,1.12502759203,-0.0446371555108,-0.0431520002479,-0.0237801615412,-0.00746683944917,-0.0140335224137,0.00349716395989,0.00454492316803
0x2,11,1.04641812157,-0.0172202122289,-0.00238373800566,-0.0125693911942,-0.0270634890612,0.00175076484355,0.0010520486707,0.0100158954099

 

  40   Tue May 19 11:01:29 2015 Hao YinBelle IIsystemPedestalPedestalRun

FIRRun001

Baseline measurement without injections, 50000 event,

room temperature.

noise results see attachments.

Attachment 1: 51.png
51.png
Attachment 2: 48.png
48.png
Attachment 3: 46.png
46.png
Attachment 4: 42.png
42.png
Attachment 5: 39.png
39.png
Attachment 6: 36.png
36.png
Attachment 7: 33.png
33.png
Attachment 8: 30.png
30.png
Attachment 9: 27.png
27.png
Attachment 10: 22.png
22.png
Attachment 11: 19.png
19.png
Attachment 12: 16.png
16.png
Attachment 13: 13.png
13.png
Attachment 14: 09.png
09.png
Attachment 15: 06.png
06.png
Attachment 16: 42.png
42.png
  41   Tue May 19 13:23:16 2015 Hao YinBelle IIsystemCalibrationCalibrationRun001

PedestalRun001, FIRRun001,

room temperature,

no noise injection

see result in the appendix.

  42   Tue May 19 13:42:04 2015 Hao Yin   L6 Noise inJection Setup

Test Nr. 1:

RLC between DockBox and Hybrid (both side).

Preliminary Test on L6, but all other sensors are connected.

A common mode is injected into DCDC converters first into 1.25V next 2.50V and finally both.

The noise source is attached on the cable between the sensor and the dockbox.

Ajusted ADCDelay and FirFilters

Data is saved in folder "L6_RLC_Test"

CHANGED THE LISN RLC BOX(attachment 4):

  • Change from 2 capaciter to ground to 3 capaciter to mass (also from ground to mass)

Final setup with bias (attachment 5)

Attachment 1: P1000702.JPG
P1000702.JPG
Attachment 2: P1000700.JPG
P1000700.JPG
Attachment 3: P1000699.JPG
P1000699.JPG
Attachment 4: P1000703.JPG
P1000703.JPG
Attachment 5: P1000707.JPG
P1000707.JPG
  43   Tue May 19 14:48:06 2015 Hao YinBelle IImoduleL6 Noise inJection RunsL6 Noise inJection Runs

Folder "L6_RLC_Test"

Configuration file: /mnt/data/ITA_NOISE_TESTS/L6_RLC_Test/SinglePeak_3Fadc.cfg

3 Tests: Injkection to 2.5V 1.25V. ground and their combination

Frequency scan with const ampl.:

points (index (run number) corresponds to frequency):

index  -  frequency[MHz]

1 - 0,5
2 - 0,7
3 - 0,8
4 - 1
5 - 2
6 - 3
7 - 5
8 - 7
9 - 8
10 - 10
11 - 15
12 - 20
13 - 30
14 - 40
15 - 50
16 - 80

0 - base line for comparison

Base line run with out injection.

Injection Test L6:

2.5V, 1.25V, ground (data prefix all_)

  44   Wed May 20 10:12:12 2015 Hao Yin   Ladder RLC test (CMC Injection)

L5 Ladder Test

folder: /mnt/data/ITA_NOISE_TESTS/Ladder_test

Setup: ladder only, noise injection on one hybrid (injection point = cable between hybrid and junction board, see attachment 1).

Run Name Injection map (2000 Events):
fw_all: GND, 1.25V, 2.5V (injection into the p-side): (TestNr. 2)
0: baseline
1: baseline
2: 5MHz 1mA
3: 5MHz 2mA
4: 5MHz 5mA
5: 5MHz 3mA
6: 1MHz 2mA
7: 500kHz 2mA
8: 200kHz 2mA
9: 400kHz 2mA
10: 400kHz 1mA
11: 400kHz 0.5mA
12: 700kHz 2mA
13: 700kHz 1mA
14: 800kHz 1mA
15: 2MHz 2mA
16: 3MHz 2mA
17: 7MHz 2mA
18: 8MHz 2mA
19: 10MHz 2mA
20: 15MHz 2mA
21: 20MHz 2mA
22: 20MHz 4mA
23: 30MHz 4mA
24: 40MHz 4mA
25: 40MHz 6mA
26: 50MHz 4mA
27: 80MHz 4mA

fw_n_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 3)
0: base_line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 2mA
8: 3MHz 2mA
9: 5MHz 2mA
10: 7MHz 2mA
11: 8MHz 2mA
12: 10MHz 2mA
13: 15MHz 2mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 4mA
17: 30MHz 6mA
18: 40MHz 6mA
19: 50MHz 6mA
20: 80MHz 6mA

ce_p_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 4)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 2mA
8: 2MHz 4mA
9: 3MHz 4mA
10: 5MHz 4mA
11: 7MHz 4mA
12: 8MHz 4mA
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

noise coupling to -z bw and !!!


ce_n_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 5)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 2mA
8: 2MHz 4mA
9: 3MHz 4mA
10: 5MHz 4mA
11: 7MHz 4mA
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

noise coupling to -z!!!

-z_p_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 6)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 2mA (other sensors heavily disturbed)
8: 2MHz 4mA
9: 3MHz 4mA
10: 5MHz 4mA
11: 7MHz 4mA
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

-z_n_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 7)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA (other sensors heavily disturbed)
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

bw_p_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 8)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA (other sensors heavily disturbed)
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

bw_n_all: GND, 1.25V, 2.5V (injection into the n-side): (TestNr. 9)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA (other sensors heavily disturbed)
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

-z_n_2.5V: 2.5V (injection into the n-side): (TestNr. 10)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA (other sensors heavily disturbed)
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

-z_n_2.5V: 1.5V (injection into the n-side): (TestNr. 11)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA (other sensors heavily disturbed)
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

Sensor  on -z_n and fw_n still shows wings after the test...

-z_n_1.25V: 1.5V (injection into the n-side): (TestNr. 12)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA (other sensors heavily disturbed)
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA (other sensors heavily disturbed)
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA


-z_n_GND: GND (injection into the n-side): (TestNr. 13)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA (all sensors affected by the nosie)
7: 2MHz 4mA
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA

-z_np_all: GND, 1.25V, 2.5V  (injection into the p and n-side): (TestNr. 14)
0: base line
1: 200kHz 2mA
2: 400kHz 2mA
3: 500kHz 2mA
4: 700kHz 1mA
5: 800kHz 1mA
6: 1MHz 2mA
7: 2MHz 4mA
8: 3MHz 4mA
9: 5MHz 4mA
10: 7MHz 4mA
(skipping one)
12: 8MHz 4mA (amplifier)
13: 10MHz 4mA
14: 15MHz 4mA
15: 20MHz 4mA
16: 30MHz 6mA
17: 40MHz 6mA
18: 50MHz 6mA
19: 80MHz 6mA
 

  45   Thu May 21 18:23:22 2015 Hao Yin   Noise Injection LV cable

(TestNr. 15)

injecting sin wave into LV at different frequencies to analyse the output frequency and noise ground level after the junction borad.
only one group of DC/DC are connected. the readout is performed at the cable between junction board and -z_n hybrid (1.25V, 2.5V and GND).
the sin wave injection is performed adjacent the LV power connection, see appendix 1.

performed 2 sets of measurements: one w HV and one wo HV.
results have been recorded by Mateo.

During measurements the APVs of 3 out of four sensors (6 hybrids) has been resetet. Some also showed a flat line at 200 ADC, indicating a disturbance at the analog level translater.
A more detailed measurement to simulate the case mentioned above will be performed.

 

Attachment 1: P1000717.JPG
P1000717.JPG
  46   Fri May 22 12:01:32 2015 Hao Yin   CMC injection LV 10V

Comparison w/o filter (LC) connected to -z_n side.

Mateo has the results.

  47   Mon May 25 10:38:03 2015 Hao YinBelle IIsystemL5 Ladder Emission TestEmission

(TestNr: 16)

base line noise measurement are saved in SYSTEM_CHECK_AFTER_WE.
(noise wings at fw n side decreased !!!)

Measuring noise emitted by our system.
1) noise emmision at the cable from dockbox to the hybrid (fw n and p side)
 

  48   Mon May 25 20:27:23 2015 Hao YinBelle IIsystemCaen PS base line measurements 

Baseline noise measurements wo injection.

measure noise in both HV and LV.

wings of APV25 using cmc with 128 strip are visible wo injection. (folder CAEN_PS, run name Noise_xxx.dat).

CMC measurements wo injection:
* LV 300kHz, 1MHz + harmonics
* HV also noisy, few peak showed a induction of about 1 mA. the injected noise goese through p-side HV and returns at n-side HV - and vise versa-.

@ caen HV Ctrl (software)
always shows a current with about 0.5 mA with LV and HV switched off....

 

Attachment 1: P1000760.JPG
P1000760.JPG
Attachment 2: P1000758.JPG
P1000758.JPG
  49   Wed May 27 09:30:54 2015 Hao YinBelle IIsystemCAEN PS Primary side 

Measured Primary side of caen wo load (setup attachment 2 and prelimilary res. attachment 1. )

and with load (attachment 3: Load, att. 4 corresponding circuit scheme)

Attachment 1: P1000776.JPG
P1000776.JPG
Attachment 2: P1000774.JPG
P1000774.JPG
Attachment 3: P1000777.JPG
P1000777.JPG
Attachment 4: P1000780.JPG
P1000780.JPG
Entry is currently edited by Hao Yin on 255.255.255.255    50   Fri May 29 11:47:56 2015 Hao YinBelle IIsystemPS FilterTesting PS LV filter and quantifying the required min noise lvl

Data of this entry is recorded in the folder: LV315kHz_Injections
Injecting noise to LV with a freq. of 314 kHz to emulate Caen PS with KenWood PS.

Run Name 315kHzKenWood_: (injecting cmc noise into p-side lv) (attachment 1)
000 ... baseline noise
001 ... 4mA
002 ... 1mA
003 ... 1mA wo Amplifier
004 ... 4mA wo Amplifier
005 ... 0.5mA wo Amplifier
006 ... 2mA wo Amplifier
007 ... 0.2mA wo Amplifier

Run Name 315kHzKenWood_Filter_BW_: (injecting cmc noise into p-side lv with filters (inductance with 470 mH x 6 ) conn. at bw) (attachment 1) (wo Amplifier)
000 ... baseline noise
001 ... 0.2mA
002 ... 0.4mA
003 ... 0.5mA
004 ... 1mA
005 ... 2mA
006 ... 4mA

Run Name 315kHzKenWood_Filer_BW_HVRET-GND:
000 ... baseline noise
001 ... 0.2mA
002 ... 0.4mA
 

  51   Mon Nov 30 15:12:19 2015 Hao Yin   FIR_ADC config

FIR filter and ADC delay test:
ADC delay and FIR filter with and without cooling to reproduce error detected during CERN beam test 2015.
 

Measurements wo cooling:

Measurements w cooling:

Mesurements w cooled configs:

  52   Mon Nov 30 15:18:12 2015 Hao YinBelle IImoduleADC_DELAY_HOTADC delay hot

ADC delay scan at room temp and 20 min after APV I2C config.

measured values at display in the FIR_HOT cfg file.

17:06 first run 20 min after i2c config.

  53   Mon Nov 30 17:11:17 2015 Hao YinBelle IImoduleFIRRun001FIRRun001 aft ADC_HOT

FirRun 20 min after I2C

  54   Mon Nov 30 17:13:47 2015 Hao YinBelle IIsystemPedestalRun 

ADC Hot, FIRRun001

room temp pedrun

  55   Mon Nov 30 17:23:51 2015 Hao YinBelle IIsystemHardwareRun001 

ADC Hot, FIRRun001, PedestalRun001

room temp pedrun

target: BW

Attachment 1: Room_bw_n.png
Room_bw_n.png
Attachment 2: Room_bw_p.png
Room_bw_p.png
  56   Mon Nov 30 17:47:54 2015 Hao YinBelle IIsystemHardwareRun002 

ADC Hot, FIRRun001, PedestalRun001

target: -Z

room temp pedrun

 

Attachment 1: Room_-z_n.png
Room_-z_n.png
Attachment 2: Room_-z_p.png
Room_-z_p.png
  57   Mon Nov 30 18:32:13 2015 Hao YinBelle IIsystemADC Delay Scan Cold 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns)

  58   Mon Nov 30 18:44:04 2015 Hao YinBelle IIsystemFIRRun_Cold 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns)

 

  59   Mon Nov 30 18:45:49 2015 Hao YinBelle IIsystemPedestalRun_Cold 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

 

  60   Mon Nov 30 18:49:23 2015 Hao YinBelle IIsystemHardware_Cold 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

target: -Z

 

Attachment 1: Cold_-z_n.png
Cold_-z_n.png
Attachment 2: Cold_-z_p.png
Cold_-z_p.png
  61   Mon Nov 30 19:01:54 2015 Hao YinBelle IIsystemHardware_Cold 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

Temp = 0°C

target: CE

 

Attachment 1: Cold_ce_n.png
Cold_ce_n.png
Attachment 2: Cold_ce_p.png
Cold_ce_p.png
  62   Mon Nov 30 19:48:05 2015 Hao YinBelle IIsystemHardware_Room_With_Cold_I2C 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

with room temp i2c config

Temp = 0°C

target: CE

 

Attachment 1: RoomTemp_with_cold_config_ce_p.png
RoomTemp_with_cold_config_ce_p.png
Attachment 2: RoomTemp_with_cold_config_ce_n.png
RoomTemp_with_cold_config_ce_n.png
  63   Mon Nov 30 20:06:15 2015 Hao YinBelle IIsystemHardware_Room_With_Cold_I2C 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

with room temp i2c config

Temp = room

target: -Z

 

Attachment 1: RoomTemp_with_cold_config_-z_p.png
RoomTemp_with_cold_config_-z_p.png
Attachment 2: RoomTemp_with_cold_config_-z_n.png
RoomTemp_with_cold_config_-z_n.png
  64   Mon Nov 30 20:16:37 2015 Hao YinBelle IIsystemHardware_Room_With_Cold_I2C 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

ADC delay shifted by 3 (1.5ns) all sensors

with room temp i2c config

Temp = room

target: -Z

 

Attachment 1: RoomTemp_with_cold_config_-z_p_3.png
RoomTemp_with_cold_config_-z_p_3.png
Attachment 2: RoomTemp_with_cold_config_-z_n_3.png
RoomTemp_with_cold_config_-z_n_3.png
  65   Mon Nov 30 20:27:42 2015 Hao YinBelle IIsystemHardware_Room_With_Cold_I2C 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

ADC shifted by 5 (2.5ns) all sensors

with room temp i2c config

Temp = room

target: -Z

Note : n-side (strip nr 200 - 220 shadowhits)

Attachment 1: RoomTemp_with_cold_config_-z_p_5.png
RoomTemp_with_cold_config_-z_p_5.png
Attachment 2: RoomTemp_with_cold_config_-z_n_5.png
RoomTemp_with_cold_config_-z_n_5.png
  67   Mon Nov 30 22:35:41 2015 Hao YinBelle IIsystemHardware_Room_With_Cold_I2C 

ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns), FIRRun_Cold_001

ADC shifted by 9 (4.5ns) all sensors

with room temp i2c config

Temp = room

target: -Z

Attachment 1: RoomTemp_with_cold_config_-z_p_9.png
RoomTemp_with_cold_config_-z_p_9.png
Attachment 2: RoomTemp_with_cold_config_-z_n_9.png
RoomTemp_with_cold_config_-z_n_9.png
  1   Fri Apr 18 17:23:26 2008 Markus FriedlSPS Testbeam June08hybridhybrid 01Noise of hybrid 01, sensor fully bonded, no HV
HV bias not yet glued to backplane
Attachment 1: hybrid01_sen_nohv_pednoise_apv0.png
hybrid01_sen_nohv_pednoise_apv0.png
Attachment 2: hybrid01_sen_nohv_pednoise_apv1.png
hybrid01_sen_nohv_pednoise_apv1.png
  2   Tue Apr 22 19:34:09 2008 Markus FriedlSPS Testbeam June08modulehybrid 01Properties of hybrid 01, sensor fully bonded, HV=100V
HV bias glued to backplane, HV=100V
Attachment 1: hybrid01_sen_hv100V_cal_apv0.png
hybrid01_sen_hv100V_cal_apv0.png
Attachment 2: hybrid01_sen_hv100V_cal_apv1.png
hybrid01_sen_hv100V_cal_apv1.png
Attachment 3: hybrid01_sen_hv100V_pednoise_apv0.png
hybrid01_sen_hv100V_pednoise_apv0.png
Attachment 4: hybrid01_sen_hv100V_pednoise_apv1.png
hybrid01_sen_hv100V_pednoise_apv1.png
Attachment 5: hybrid01_sen_hv100V_cmnoise_apv0.png
hybrid01_sen_hv100V_cmnoise_apv0.png
Attachment 6: hybrid01_sen_hv100V_cmnoise_apv1.png
hybrid01_sen_hv100V_cmnoise_apv1.png
  4   Wed Apr 23 13:37:18 2008 Markus FriedlSPS Testbeam June08sourcehybrid 01analysis results of source test
Ignore the "KEK November 2007" title - that's a legacy and is already changed :-)

As of now, there is no distinction in 16 separate zones. However, the gaps between the the zones are clearly visible in the Hit Profile, as the edge strips on both sides have a larger sensitive area and thus collect more hits than other strips; hence the spikes in the (otherwise pretty gaussian) beam profile. There is a single strip with no entries in the center - that's the one that suffered from the bias bond repair action.
SNR=21 (peak mode) is pretty healthy and fits to similar detectors operated with APV25.
All data was taken in multi-peak mode with subsequent hit fitting to obtain amplitude and timing (see separate posting for timing precision).

The verbose output of the analysis is pasted below.


Analysis of vie_run001

Peak Mode, 3 x 200 initevents (first 10 skipped) + 99400 events
Number hybrids:  1	number zones:  2	 number sensors:  1
Using calibration file vie_cal001
No pedestal correction file
Seed/Neighbor/Cluster/Noisy Strips Cuts [RMS noise]: 5.0/3.0/5.0
Min. hitlength:   3


Comments:
SILC module 01
HV=100V, 40MHz, Tp=50ns, 30ns
Sr90 1mCi ,  black cloth cover



Analysis date: 23.04.2008 13:25:09


Analysis settings:
 runname: vie_run001_cluster
 clock: 40.00 MHz
 datafilepath: data/
 outputpath: output/
 subevents:  6
 fitmode: 2 (cal. fit)
 options: h




Results:

ModuleName           ZoneType    Ch    OKCh     OK%   Entries    MClW    MPSignal   Noise   MPSNR   HpSE  Occup
p_side            JP single sensor    256    256   100.0     90385    2.53    21546.1    729.4   20.68   0.53   1.81
Attachment 1: vie_run001_cluster_sig_0.gif
vie_run001_cluster_sig_0.gif
Attachment 2: vie_run001_cluster_noi_0.gif
vie_run001_cluster_noi_0.gif
Attachment 3: vie_run001_cluster_hit_0.gif
vie_run001_cluster_hit_0.gif
Attachment 4: vie_run001_cluster_clw_0.gif
vie_run001_cluster_clw_0.gif
  5   Wed Apr 30 16:52:17 2008 Markus FriedlBELLE Upgrademodulemicronmicron sensor glued to frame
soeben haben wir den micron-DSSD (double metal layer) in den 2-teiligen rahmen geklebt und auf beiden seiten
temporäre kapton-stückerln aufgeklebt, über die bias appliziert werden kann. nach trocknung und bonden der
bias-verbindungen (montag, 5.5.2008) wird dieser für sensor-tests zur verfügung stehen.
  14   Tue May 20 14:27:50 2008 Markus FriedlBELLE Upgradesourcemicronanalysis results of source test
*** NOTE: AFTER THIS MEASUREMENT WE REALIZED THAT BIASING WAS NOT DONE PROPERLY
          HENCE THE RESULTS BELOW ARE NOT RELIABLE 
          (in fact it is surprising that they are not worse) ***


Please find the results of the lab source test on the new Micron module here.
It is read out with 3 + 3 APV chips on either side.

Results table of the source measurement:
                      p-side     n-side
 Cluster signal [e]    18361      19434
 Strip noise [e]        1142       1193
 Avg cluster width      1.91       1.30
 Single strip SNR       16.1       16.3
 Cluster SNR            11.6       14.3
 Strip pitch [um]       50.0      153.5     

Apparently, the double metal capacitance is not so bad as expected, even though the Micron sensor does not use
the hourglass crossing scheme. Presumably the dielectric between metal 1 and 2 is rather thick (several um).
Strip noise is roughly the same on both p and n side, so the difference in Cluster SNR (*) only stems from the
unequal cluster width (which is a result of the different pitches).

Peak time precision vs SNR (last plot below) is worse compared to the values obtained with various HPK sensors
in the November 2007 beam test at KEK. However, this is a comparison of source and beam and thus might not be
significant. Let's see what we will get in the SPS beam test next week.

(*) Cluster SNR := sum(signal) / (strip_noise * sqrt(cluster_width) )
Attachment 1: vie_micron_run002_signal.gif
vie_micron_run002_signal.gif
Attachment 2: vie_micron_run002_noise.gif
vie_micron_run002_noise.gif
Attachment 3: vie_micron_run002_hit.gif
vie_micron_run002_hit.gif
Attachment 4: vie_micron_run002_clw.gif
vie_micron_run002_clw.gif
Attachment 5: vie_micron_p_run002_tres.gif
vie_micron_p_run002_tres.gif
Attachment 6: vie_micron_n_run002_tres.gif
vie_micron_n_run002_tres.gif
Attachment 7: vie_micron_p_run002_ressnr.gif
vie_micron_p_run002_ressnr.gif
Attachment 8: vie_micron_n_run002_ressnr.gif
vie_micron_n_run002_ressnr.gif
Attachment 9: trms_vs_snr_micron_src.gif
trms_vs_snr_micron_src.gif
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