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  HEPHY logbook for testbeam at SPS October 2011, all entries  Not logged in ELOG logo
New entries since:Thu Jan 1 01:00:00 1970
ID Date Author Project Subject Run Number Events StartTime EndTime Data
  94   Wed Mar 7 16:58:36 2012 Christian IrmlerBELLEOrigami Module #4cal113100k07.03.2012 16:40:04 07.03.2012 16:57:08Unknown

Sr90, small (new) scintillator, new trigger unit
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-19,6°C, Tout=-21.3°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_single_cooled.cfg

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 0

J7... HV ret @ hybrid

same configuration as run112 but now the step motors of the xz table are powered.

  93   Wed Mar 7 16:03:30 2012 Christian IrmlerBELLEOrigami Module #4run113100k07.03.2012 16:07:3407.03.2012 16:30:48 Unknown

Sr90, small (new) scintillator, new trigger unit
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-19,6°C, Tout=-21.3°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 0

J7... HV ret @ hybrid

same configuration as run112 but now the step motors of the xz table are powered.

Attachment 1: run112-113.jpg
run112-113.jpg
  92   Wed Mar 7 15:44:25 2012 Christian IrmlerBELLEOrigami Module #4cal1128380007.03.2012 15:42:53 Unknown

Sr90, small (new) scintillator, new trigger unit
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-19,6°C, Tout=-21.3°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_single_cooled.cfg

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 0

J7... HV ret @ hybrid

  91   Wed Mar 7 15:12:42 2012 Christian IrmlerBELLEOrigami Module #4run112100k07.03.2012 15:13:18 07.03.2012 14:31:07Unknown

Sr90, small (new) scintillator, new trigger unit
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-19,6°C, Tout=-21.3°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 0

J7... HV ret @ hybrid

  90   Mon Mar 5 19:27:56 2012 Christian IrmlerBELLEOrigami Module #4run11150k05.03.2012 19:26:28 Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,30µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 0 1

J7... HV ret @ hybrid

 

same as run108
Noise of p-side APVs in run108 was very high --> repeat measurement!

  89   Mon Mar 5 19:06:41 2012 Christian IrmlerBELLEOrigami Module #4cal1108380005.03.2012 19:05:5205.03.2012 19:17:01Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,9µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 0

J7... HV ret @ hybrid

  88   Mon Mar 5 18:41:23 2012 Christian IrmlerBELLEOrigami Module #4run110100k05.03.2012 18:45:2105.03.2012 19:04:30Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,9µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 0

J7... HV ret @ hybrid

  87   Mon Mar 5 18:08:02 2012 Christian IrmlerBELLEOrigami Module #4cal1098380005.03.2012 18:07:4005.03.2012 18:18:32Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,9µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 1

J7... HV ret @ hybrid

  86   Mon Mar 5 17:36:46 2012 Christian IrmlerBELLEOrigami Module #4run109100k05.03.2012 17:36:19 05.03.2012 17:55:24 Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,9µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 1 1

J7... HV ret @ hybrid

  85   Mon Mar 5 17:35:31 2012 Christian IrmlerBELLEOrigami Module #4cal1088380005.03.2012 16:47:5105.03.2012 17:05:16Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,9µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 0 1

J7... HV ret @ hybrid

Attachment 1: run108-109.jpg
run108-109.jpg
  84   Mon Mar 5 17:34:43 2012 Christian IrmlerBELLEOrigami Module #4run108100k 05.03.2012 16:24:12Unknown

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,9µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 0 (now isolated) 1 0 1

J7... HV ret @ hybrid

  83   Wed Feb 22 18:32:24 2012 Christian IrmlerBELLEOrigami Module #4run10750k22.02.2012 18:30:3322.02.2012 18:40:11Good

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 1 0 0 1

J7... HV ret @ hybrid

Same as run106, but now J7 closed

APV pedestals slightly unstable.

Attachment 1: run107_apv5_raw_data.jpg
run107_apv5_raw_data.jpg
Attachment 2: run107.jpg
run107.jpg
  82   Wed Feb 22 18:10:29 2012 Christian IrmlerBELLEOrigami Module #4run10650k22.02.2012 17:39:10 22.02.2012 18:23:47Good

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 1 0 0 0

J7... HV ret @ hybrid

Same as run105, but now J5 and J7 open

 

Attachment 1: run106.jpg
run106.jpg
  81   Wed Feb 22 17:38:29 2012 Christian IrmlerBELLEOrigami Module #4run105100k22.02.2012 17:39:10 22.02.2012 17:58:01Good

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 1 1 0 0

J7... HV ret @ hybrid

Same as run104, but now J7 open

Again spikes in bias current!

 

Attachment 1: run105.jpg
run105.jpg
  80   Wed Feb 22 17:25:34 2012 Christian IrmlerBELLEOrigami Module #4cal1058380022.02.2012 17:23:13 22.02.2012 17:34:27Good

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_single_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 1 1 0 0

J7... HV ret @ hybrid

Same as cal104, but now J7 open

 

  79   Wed Feb 22 16:49:29 2012 Christian IrmlerBELLEOrigami Module #4cal1048380022.02.2012 16:51:1322.02.2012 17:02:11Good

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 1 1 0 1

J7... HV ret @ hybrid

 

  78   Wed Feb 22 16:21:23 2012 Christian IrmlerBELLEOrigami Module #4run104100k22.02.2012 16:22:3422.02.2012 16:41:26Good

Sr90, large scintillator,
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

SMU:  +HV=Inv.Nr. 545-77    -HV=Inv.Nr. 540-702

HVret configuration:

0 ... switch open / not connected
1 ... switch closed / connected
 

SMU Dock Box J5 J6 J7
0 1 1 0 1

J7... HV ret @ hybrid

APV 0 1 2 3 4 5 6 7
avg noise 2.564 2.124 2.094 2.200 1.696 1.666 1.870 1.888
CM noise 1.7 0.9 0.9 1.3 4.0 4.1 4.1 4.2

 

 

Attachment 1: run104.jpg
run104.jpg
Attachment 2: run104_current.xls
  77   Wed Feb 22 13:37:11 2012 Christian IrmlerBELLEOrigami Module #4run103100k22.02.2012 13:35:0822.02.2012 13:54:08 Crap

Sr90, large scintillator,
HVret @ Origami closed
HVret @ SMU connected
Origami Mod. #4
HV=+-40V, Ibias=1,6µA
CO2 cooling on, Tin=-20.5°C, Tout=-21.5°C

I²C settings for cooled APV chips --> same as used in run010

e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator

Wires between HV connectors ground and HVret conntact at the mambo were open --> no HVret conntection between module and SMUs!
Moreover the SMU Inv. Nr. 545-078 has either an unstable output or problems with the current measurement.

  76   Wed Feb 22 13:17:34 2012 Christian IrmlerBELLEOrigami Module #4cal1028380022.02.2012 13:11:3022.02.2012 13:25:18Good

Sr90, large scintillator, HVret @ Origami open
Origami Mod. #4
HV=+-40V, Ibias=1,8µA
CO2 cooling on, Tin=-20.2°C, Tout=-21.3°C

I²C settings for cooled APV chips --> same as used in run010
e:\cvi-projects\apvdaq_fadc\origami6_V2_single_cooled.cfg

Lab measurement with new dark box but old, large scintillator.

  75   Wed Feb 22 12:15:11 2012 Christian IrmlerBELLEOrigami Module #4run102170k22.02.2012 12:31:0822.02.2012 13:03:27 Good

same as run101

Sr90, large scintillator, HVret @ Origami open
Origami Mod. #4
HV=+-40V, Ibias=1,8µA
CO2 cooling on, Tin=-20.2°C, Tout=-21.3°C

I²C settings for cooled APV chips --> same as used in run010
e:\cvi-projects\apvdaq_fadc\origami6_V2_multi6_cooled.cfg

Lab measurement with new dark box but old, large scintillator.

CO2 empty after 24497 events --> run stopped --> no corresponding calibration available, but for rought analysis cal100 can be used for this run, too

  74   Mon Feb 20 17:27:02 2012 Christian IrmlerBELLEOrigami Module #4run1012449720.02.2012 17:33:3320.02.2012 17:38:21Good

Sr90, large scintillator, HVret @ Origami open
Origami Mod. #4
HV=+-40V, Ibias=2,03µA
CO2 cooling on, Tin=-16°C, Tout=-16,7°C

I²C settings for cooled APV chips --> same as used in run010.

Lab measurement with new dark box but old, large scintillator.

CO2 empty after 24497 events --> run stopped

  73   Mon Feb 20 17:20:20 2012 Christian IrmlerBELLEOrigami Module #4cal10050k20.02.2012 17:19:0320.02.2012 17:29:58Good

Sr90, large scintillator, HVret @ Origami open
Origami Mod. #4
HV=+-40V, Ibias=2,03µA
CO2 cooling on, Tin=-16°C, Tout=-16,7°C

standard I²C settings for uncooled APV chips.

Lab measurement with new dark box but old, large scintillator.

Calibration run for run100.

  72   Mon Feb 20 17:17:27 2012 Christian IrmlerBELLEOrigami Module #4run10050k20.02.2012 17:07:2120.02.2012 17:17:22Good

Sr90, large scintillator, HVret @ Origami open
Origami Mod. #4
HV=+-40V, Ibias=2,03µA
CO2 cooling on, Tin=-16°C, Tout=-16,7°C

standard I²C settings for uncooled APV chips.

Lab measurement with new dark box but old, large scintillator.

20.02.2012  17:08:27  event=5771  ***WARNING*** Error detected in APV 6, subevent 0. Event discarded, reset sent. --> APV 6 recovered afterwards

  71   Thu Oct 20 11:49:14 2011 Markus FriedlcommonScintillator dimensions    Good
Attachment 1: bhihagag.jpg
bhihagag.jpg
Attachment 2: bdgaegba.jpg
bdgaegba.jpg
  70   Thu Oct 13 13:08:38 2011 Thomas Bergauercommonend of success    Unknown
  69   Mon Oct 10 21:55:30 2011 Marko DragicevicMicronInternal Calibrationcal0138380010.10.2011 21:52:32 Unknown

micronbaby p-spray/irrad
HV = -100V
beam on, baseline of irrad APV reduced

APV #2 (I²C addr. 40) deactivated, latency error after initialization, reset line is open

  68   Mon Oct 10 21:54:24 2011 Marko DragicevicMicronMicron-Baby-Stack p-spray, run bottom rightrun027700k10.10.2011 22:40:3111.10.2011 09:49:11Unknown

hit modules in bottom left corner -> Zones narrow and half-narrow for COMB_IRRAD, Zones wide and half-wide for COMM_IRRAD
timing corrected w.r.t. run004

Position of HEPHY x-z-table:
x = 322
z = 70

Note: z-Position not identical with position of run004, x-z-table seemed to have moved vertically. This configuration now hits the same sensor position.

  67   Mon Oct 10 16:26:20 2011 Marko DragicevicCNMCNM stackrun02630000010.10.2011 16:23:4610.10.2011 20:30:00Good

no cooling
beam on; xy table position x=328  y=69.5
HV_CNM=20V, HV_BSTD1-N=200V
Istart_CNM= 27 / 1.5 uA;  Istart_BSTD= 0.2 uA

  66   Mon Oct 10 14:11:53 2011 Christian IrmlerCNMCNM stackrun02511000010.10.2011 14:09:0010.10.2011 16:11:57Good

no cooling
beam on; xy table position x=335.5  y=79.5
HV_CNM=20V, HV_BSTD1-N=200V
Istart_CNM= 31 / 1.4 uA;  Istart_BSTD= 0.2 uA

  65   Mon Oct 10 12:32:42 2011 Manfred ValentanCNMCNM stack configuration    Unknown

Module order:

CNM-V1 (draws a lot of current, gives only low signal)
BSTD1-N (for height information)
CNM-V2 (works fine)
 

Attatchment 1: Stack config, beam from right. In the box the stack is mounted with the labelled side of the BSTD1-N module on top (90deg rotated w.r.t. photo)

Attachment 2: the top edges of the sensors coincide -> when the beam hits the last strips of the BSTD, it also hits the pitch adapter region of the CNM sensors

Attachment 1: IMG_5102.JPG
IMG_5102.JPG
Attachment 2: IMG_5092.JPG
IMG_5092.JPG
  64   Mon Oct 10 12:16:06 2011 Marko DragiceviccommonBeam Profile and Magnet BeamRef Settings     Unknown

Beam Profile from H6A, 10.10.2011 11:40

BeamRef settings for all magnets, File H6B.702

Attachment 1: BeamProfile.png
BeamProfile.png
Attachment 2: MagentBeamRefs.png
MagentBeamRefs.png
  63   Mon Oct 10 12:15:52 2011 Manfred ValentanCNMCNM stackrun02411000010.10.2011 12:03:5810.10.2011 14:05:56Good

no cooling
beam on; xy table position x=320.5  y=79.5
HV_CNM=20V, HV_BSTD1-N=200V
Istart_CNM= 28 / 1 uA;  Istart_BSTD= 0.12 uA

  62   Mon Oct 10 10:37:52 2011 Christian IrmlerCNMCNM stackcal0128380010.10.2011 11:29:5510.10.2011 11:40:55Unknown

no cooling
beam on; xy table position x=330  y=64
HV_CNM=20V, HV_BSTD1=200V
Istart_CNM= 28 / 1 uA;  Istart_BSTD= 0.12 uA

  61   Mon Oct 10 00:50:23 2011 Christian IrmlerHPKbaby_addrun023680k10.10.2011 00:51:2610.10.2011 09:15:35Good

no cooling
beam on; xy table position x=330  y=74
HV=200V Istart_PY=1,9uA;  Istart_N=0.27uA
std. I2C settings

same as run021, but taking more events

  60   Sun Oct 9 13:12:32 2011 Karl-Heinz HoffmannHPKbaby_addrun022670k09.10.2011 13:09:3210.10.2011 00:48:16Good

no cooling
beam on; xy table position x=330  y=64
HV=200V Istart_PY=1,9uA;  Istart_N=0.27uA
std. I2C settings

  59   Sun Oct 9 11:31:43 2011 Manfred ValentanHPKHPK BADD stack configuration    Unknown

Module order:

BADD1-N
BADD2-N

BSTD1-N (for z information)

BADD1-P
BADD1-Y

BADD2-P
BADD2-Y

Talk from Marko on Testbeam with HPK Double Metal Sensors

Attachment 1: IMG_5097.JPG
IMG_5097.JPG
  58   Sun Oct 9 11:28:30 2011 Manfred ValentanHPKHPK BSTD stack configuration    Unknown

Module order:

BSTD1-N
BSTD2-N

BADD1-N (for z information)

BSTD1-P
BSTD1-Y

BSTD2-P
BSTD2-Y

Talk from Marko on Testbeam with HPK Double Metal Sensors

Attachment 1: IMG_5058.JPG
IMG_5058.JPG
Attachment 2: IMG_5069.JPG
IMG_5069.JPG
  57   Sun Oct 9 11:00:33 2011 Karl-Heinz HoffmannHPKbaby_addrun02115000009.10.2011 10:56:4709.10.2011 12:47:23Good

no cooling
beam on; xy table position x=330  y=74
HV=200V Istart_PY=1,9uA;  Istart_N=0.27uA
std. I2C settings

  56   Sun Oct 9 10:13:11 2011 Karl-Heinz HoffmannHPKbaby_addcal0118380009.10.2011 10:05:01 Good

no cooling
beam on; xy table position x=  y=
HV=200V Istart_P=1.5uA;  Istart_N=0.22uA
std. I2C settings

  55   Sun Oct 9 10:05:34 2011 Markus FriedlHPKbaby_stdcal0108380008.10.2011 13:36:2508.10.2011 13:54:07Good

HV=+-40V,
no cooling
beam off; xy table position x=  y=
HV= Istart=uA;
std. I2C settings
 

  54   Sat Oct 8 23:27:44 2011 Karl-Heinz HoffmannHPKbaby_stdrun02038200008.10.2011 23:24:1609.10.2011 09:24:20Good

no cooling
beam on; xy table position x=327,5  y=65
HV=200V Istart_PY=8.2uA;  Istart_N=0.45uA
std. I2C settings

  53   Sat Oct 8 20:33:58 2011 Karl-Heinz HoffmannHPKbaby_stdrun01915000008.10.2011 20:22:4508.10.2011 23:19:23Good

no cooling
beam on; xy table position x=333  y=80
HV=200V Istart_PY=8.2uA;  Istart_N=0.45uA
std. I2C settings

  52   Sat Oct 8 16:45:14 2011 Thomas BergauerHPKbaby_stdrun01815000008.10.2011 16:44:1308.10.2011 19:33:33Good

no cooling
beam on; xy table position x=322  y=80
HV=200V Istart_PY=8.2uA;  Istart_N=0.45uA
std. I2C settings, now with correct timing

  51   Sat Oct 8 16:35:04 2011 Thomas BergauerHPKbaby_stdrun017 08.10.2011 16:26:10 Crap

wrong timing

 

no cooling
beam on; xy table position x=322  y=80
HV=200V Istart_PY=7.6uA;  Istart_N=0.42
std. I2C settings

  50   Sat Oct 8 14:33:25 2011 Thomas BergauerHPKbaby_stdrun016250k08.10.2011 14:31:40 Crap

falsches config file (single statt multi6)

 

no cooling
beam on; xy table position x=322  y=80
HV=200V Istart_PY=7.6uA;  Istart_N=0.42
std. I2C settings

  49   Sat Oct 8 09:30:44 2011 Christian IrmlerBELLECooling plant tests  08.10.2011 09:30 Unknown

Software run with 6 samples to ensure that APV chips dissipate full power.

DAQ data not saved, bias current monitored

new longterm files:
It-neg-0810110926.txt
It-pos-0810110926.txt

Attachment 1: biascurrent_cooling_test1.jpg
biascurrent_cooling_test1.jpg
Attachment 2: temp_cooling_test1.jpg
temp_cooling_test1.jpg
  48   Sat Oct 8 00:14:37 2011 Christian IrmlerBELLEOrigami stackrun01518011108.10.2011 00:06:4108.10.2011 08:24:38Good

Origami6
HV=+-40V,
no cooling
beam on; xy table position x=306 y=74.5
Istart=57µA;
std. I2C settings

centered

currents:
8.10.2011  00:07:43  event=991  rate=0events/s temp/curr=33.0/-15.4 33.0/-17.3 33.0/-17.7 31.9/011.5 31.9/013.2 32.0/040.20
...

08.10.2011  06:32:34  event=179710  rate=0events/s temp/curr=33.1/-22.1 33.0/-25.6 33.1/-22.6 31.9/018.2 31.8/021.7 31.9/048.5
08.10.2011  06:33:28  event=180105  ***WARNING*** Error detected in APV 0, subevent 2. Event discarded, reset sent.
 

Permanent APV errors at several (all p-side, some n-side) APV chips after 180105 events, which could not be recovered by software resets. After restart of run, all APVs where alive again, hence hardware reset and I2C reconfiguration after 5 or 10 consecutive APV errors should be added to TUXDAQ software.

After APV errors occured, the cummulative bias current decrised from 78µA to 54µA. This effect can occures whenever the digital part of the APV is switched between idle and full operation. It seems that this is a thermal effect, caused by  the slightly higher power consumption of the digital part of the chips.

 

  47   Fri Oct 7 19:35:14 2011 Christian IrmlerBELLEOrigami stack cooledrun01490k07.10.2011 19:49:2607.10.2011 23:26:52Good

Origami6
HV=+-40V,
CO2 cooling: P_TT_4: 14.9 bar, mf=0.9 g/s
beam on; xy table position x=306 y=74.5

centered

I=17.8µA; old I2C settings; corrected trigger delay (htr); adjusted front-end voltages 

CO2 pressure reduced to 14.9 bar --> temp is about 4K colder
Temp. at pipe inlet (K7) = -18°C
Temp. at pipe outlet (K8) = -21.8°C

currents:

07.10.2011  23:26:21  event=89786  rate=0events/s temp/curr=33.0/-05.3 33.0/-05.8 33.0/-06.6 31.9/001.4 32.0/001.9 31.9/017.7
 

  46   Fri Oct 7 18:40:07 2011 Christian IrmlerBELLEOrigami stack cooledcal0098380007.10.2011 18:35:04 07.10.2011 19:31:51Good

Origami6
HV=+-40V,
CO2 cooling: P_TT_4: 14.9 bar, mf=0.9 g/s
beam on; xy table position x=306 y=76.5

I=18.6µA; old I2C settings; corrected trigger delay (htr); adjusted front-end voltages 

CO2 pressure reduced to 14.9 bar --> temp is about 4K colder
Temp. at pipe inlet (K7) = -18°C
Temp. at pipe outlet (K8) = -21.8°C

used multi6 config instead of single hit config (cern11_origami_cooled2_multi6.cfg)

currents:
07.10.2011  18:36:07  event=1581  rate=31events/s temp/curr=33.9/-05.3 33.9/-05.6 33.9/-06.6 32.8/001.4 32.8/001.9 32.8/018.1

  45   Fri Oct 7 18:28:53 2011 Christian Irmlercommonrun schedule    Unknown
Attachment 1: run_schedule.pdf
Attachment 2: run_schedule.xlsx
  44   Fri Oct 7 10:13:12 2011 Christian IrmlerBELLEOrigami stack cooledrun013185k07.10.2011 10:02:2007.10.2011 17:17:32Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=1 g/s
beam on; xy table position x=321 y=99
I=18.6µA; old I2C settings; corrected trigger delay (htr); adjusted front-end voltage

The beam is directly focused onto APV chip #2 of n-side, so that it hits the area underneath chip and cooling pipe.
On p-side this location is attached to chip #4, which currently can not be read out, hence we only get data for the n-side.

currents:
07.10.2011  10:03:22  event=979  rate=0events/s temp/curr=33.2/-05.6 33.3/-06.0 33.2/-06.7 32.2/001.6 32.2/002.0 32.2/018.7
07.10.2011  17:17:18  event=184992  rate=0events/s temp/curr=33.8/-05.6 33.8/-06.0 33.8/-06.9 32.7/001.7 32.7/002.0 32.7/018.7
 

  43   Fri Oct 7 00:20:15 2011 Christian IrmlerBELLEOrigami stack cooledrun012250k07.10.2011 00:15:54 07.10.2011 09:13:55Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=1 g/s
beam on; xy table position x=352 y=89
I=19.1µA; old I2C settings; corrected trigger delay (htr); adjusted front-end voltages

beam focused on APV #3 of p- and n-side, respectively

currents:
07.10.2011  00:16:57  event=987  rate=0events/s temp/curr=34.3/-05.6 34.3/-06.0 34.3/-06.9 33.3/001.7 33.5/002.2 33.3/019.2
07.10.2011  09:13:42  event=249992  rate=0events/s temp/curr=33.6/-05.5 33.5/-06.0 33.6/-06.7 32.5/001.7 32.5/002.0 32.5/018.8
 

  42   Thu Oct 6 17:36:47 2011 Christian IrmlerBELLEOrigami stack cooledrun01118000006.10.2011 17:06:3807.10.2011 00:04:06Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=1 g/s
beam on; xy table position x=260.8 y=60.25
I=19.4µA; old I2C settings; corrected trigger delay (htr); adjusted front-end voltages 

beam focused on APV #0 of p- and n-side, respectively

currents:
06.10.2011  17:07:41  event=639  rate=3events/s temp/curr=35.2/-05.6 35.2/-06.0 35.2/-06.9 34.5/001.7 34.5/002.2 34.5/019.6

  41   Thu Oct 6 15:57:51 2011 Christian IrmlerBELLEOrigami stack cooledcal0088380006.10.2011 15:53:2006.10.2011 16:25:29 Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=1 g/s
beam on; xy table position x=306 y=76.5
I=19.5µA; old I2C settings; corrected trigger delay (htr); adjusted front-end voltages

Temp. at pipe inlet (K7) = -14°C
Temp. at pipe outlet (K8) = -17°C

Before this run, the front-end voltages (+2.5 and +1.25) were readjusted so that the nominal values appear on MAMBO. (Previously, both were about 50mV too low.) Not sure if this makes a big difference, let's see.

currents:
06.10.2011  15:54:24  event=2901  rate=36events/s temp/curr=35.5/-05.6 35.5/-06.0 35.4/-06.9 34.9/001.9 35.0/002.2 35.0/019.6
06.10.2011  16:24:25  event=81350  rate=50events/s temp/curr=34.9/-05.6 34.9/-06.1 34.9/-06.9 34.3/001.7 34.3/002.2 34.3/019.6
 

  40   Thu Oct 6 09:22:34 2011 Christian IrmlerBELLEOrigami stack cooledrun010330k05.10.2011 20:46:3006.10.2011 09:12:24 Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=0.9 g/s
beam on; xy table position x=306 y=76.5
I=20.5µA; corrected trigger delay (htr)

New run with cold Origami and same I2C setting as used 2010, with longer shaping time for p-side

centered position in both x and y.

corresponding cal file: cal006

currents:
06.10.2011  09:20:29  event=988  rate=0events/s temp/curr=35.8/-05.5 36.0/-06.0 35.8/-06.7 33.5/001.7 33.6/002.0 33.6/019.3
 

  39   Wed Oct 5 20:49:11 2011 Markus FriedlBELLEOrigami stack cooledrun009330k05.10.2011 20:46:3006.10.2011 09:12:24 Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=0.9 g/s
beam on; xy table position x=306 y=76.5
I=20.5µA; new I2C settings; corrected trigger delay (htr)

New run with cold Origami and new I2C settings (shorter peaking time) and hopefully correct timing - and centered position in both x and y.

corresponding cal file: cal007

currents:
06.10.2011  09:12:12  event=329714  rate=0events/s temp/curr=35.8/-05.5 36.0/-06.0 35.8/-06.9 33.6/001.7 33.5/002.2 33.6/019.3

  38   Wed Oct 5 20:28:00 2011 Markus FriedlBELLEOrigami stack cooledrun0081058205.10.2011 20:25:1005.10.2011 20:45:10Good

HV=+-40V,
CO2 cooling: P_TT_4: 18.2 bar, mf=0.9 g/s
beam on
I=20.5µA; new I2C settings; corrected trigger delay (htr)

New run with cold Origami and new I2C settings (shorter peaking time) and hopefully correct timing.

corresponding cal file: cal007

  37   Wed Oct 5 19:57:15 2011 Christian IrmlerBELLEOrigami stack cooled run0071784505.10.2011 18:27:5105.10.2011 19:31:43Crap

Run stopped after 17845 events, because of bad trigger timing

Origami6
HV=+-40V
beam on

CO2 cooling: 
preassure @ P_TT_4 = 18.77 bar
mass flow = 0.9 g/s

I=20µA

longterm files (same files used for cal005 and run006):
It-pos-0510111531.txt 
It-neg-0510111531.txt  

currents and temperatures:
05.10.2011  19:30:51  event=17469  rate=0events/s temp/curr=35.6/-05.6 35.6/-06.1 35.6/-07.1 35.1/001.9 35.1/002.4 35.1/020.9
 

  36   Wed Oct 5 19:33:40 2011 Markus FriedlcommonTrigger condition  4.10.2011 15:00  

Changed trigger such that off-spill scintillator triggers are vetoed.

Inserted Flip-Flop which is set by begin of spill (WWE) and reset by end of spill signal (EE). Out-bar is put in coincidence with the scintillator trigger.

This also changes the timing, which was unfortunately not detected until 30 hours later. Thus, runs 4-7 have bad (wrong) timing -> UNUSABLE

Attachment 1: trigger_path_with_veto.png
trigger_path_with_veto.png
  35   Wed Oct 5 17:54:09 2011 Christian IrmlerBELLEOrigami stack cooledcal0078380005.10.2011 17:51:57  Good

I2C setting modified to improve the shape of the p-side signal --> shaping time reduced, pulse height still low

Origami6
HV=+-40V
beam on

CO2 cooling: 
preassure @ P_TT_4 = 18.2 bar
mass flow = 0.9 g/s

I=18.0µA

longterm files
It-pos-0510111531.txt 
It-neg-0510111531.txt  

currents and temperatures:
05.10.2011  17:53:00  event=2900  rate=47events/s temp/curr=35.3/-05.6 35.3/-06.0 35.3/-06.9 34.6/001.9 34.8/002.2 34.8/020.7
 

  34   Wed Oct 5 16:43:00 2011 Christian IrmlerBELLEOrigami stack cooledcal0068380005.10.2011 16:40:1805.10.2011 17:12:27Good

Origami6
HV=+-40V
beam on

CO2 cooling: 
preassure @ P_TT_4 = 18.2 bar
mass flow = 0.9 g/s

I=21.8µA

longterm files (same files used for cal005 and run006):
It-pos-0510111531.txt 
It-neg-0510111531.txt  

currents and temperatures:
05.10.2011  16:41:21  event=2850  rate=50events/s temp/curr=35.4/-05.8 35.3/-06.3 35.4/-07.2 34.9/002.0 34.9/002.5 34.9/021.7
05.10.2011  17:11:20  event=81237  rate=37events/s temp/curr=35.1/-05.8 35.1/-06.1 35.0/-07.1 34.5/002.0 34.5/002.5 34.5/021.4
 

  33   Wed Oct 5 13:00:41 2011 Christian IrmlerBELLEOrigami stack cooled run0062469205.10.2011 12:55:5305.10.2011 14:05:49Crap

Run stopped after 24692 events, because all n-side APV failed due to a shortcut of a capacitor (C223) on n-side rebo

Origami6
HV=+-40V
beam on

CO2 cooling: 
preassure @ P_TT_4 = 18.77 bar
mass flow = 0.9 g/s

I=22.25µA

longterm files (same files used for cal005 and run006):
It-pos-0510111122.txt 
It-neg-0510111122.txt  

currents and temperatures:
05.10.2011  12:56:54  event=985  rate=0events/s temp/curr=35.0/-05.5 35.0/-06.1 34.9/-06.9 34.2/001.7 34.3/002.4 34.3/022.3
 

  32   Wed Oct 5 12:09:00 2011 Christian IrmlerBELLEOrigami stack cooled wrong I2C settingscal0058380005.10.2011 12:04:5005.10.2011 12:37:11Crap

This calibration file can not be used, due to wrong I2C settings!

Origami6
HV=+-40V
beam on

CO2 cooling: 
preassure @ P_TT_4 = 18.77 bar
mass flow = 0.9 g/s

I=22.45µA

longterm files (same files used for cal005 and run006):
It-pos-0510111122.txt 
It-neg-0510111122.txt  

currents and temperatures:
05.10.2011  12:05:53  event=2883  rate=37events/s temp/curr=35.0/-05.6 35.0/-06.3 35.0/-06.9 34.2/001.9 34.1/002.5 34.1/022.6
05.10.2011  12:36:53  event=83350  rate=48events/s temp/curr=34.4/-05.5 34.5/-06.1 34.5/-06.9 33.9/001.7 33.9/002.4 33.9/022.5
 

  31   Tue Oct 4 22:11:12 2011 Christian IrmlerBELLEOrigami stackrun00533000004.10.2011 22:09:3705.10.2011 09:11:54Crap

Origami6
HV=+-40V, no cooling
beam on
Istart=95,2µA
pos: x=306, y=87 (centered)

longterm files (same files used for cal004 and run005):
It-pos-0410112056.txt 
It-neg-0410112056.txt  

currents and temp:
05.10.2011  09:11:21  event=329649  rate=0events/s temp/curr=33.0/-23.9 33.0/-28.9 33.0/-28.9 32.0/020.1 32.0/025.0 32.0/060.0

  30   Tue Oct 4 21:40:52 2011 Christian IrmlerBELLEOrigami stackcal0048380004.10.2011 21:18:0904.10.2011 21:50:23Good

Origami6
HV=+-40V, no cooling
beam on
I=91µA

longterm files (same files used for cal004 and run005):
It-pos-0410112056.txt 
It-neg-0410112056.txt  

currents and temperatures:
04.10.2011  21:50:13  event=83750  rate=50events/s temp/curr=35.2/-26.1 35.2/-28.7 35.2/-31.4 34.6/022.6 34.6/025.0 34.6/060.4
 

  29   Tue Oct 4 15:16:45 2011 Manfred ValentanMicronMicron-Baby-Stack p-spray, run bottom right NOT USABLErun004200k4.10.2011 15:28:4804.10.2011 19:36:50Crap

HAS TO BE REPEATED!!! Before this run there were changes in the trigger line (vetoing the trigger when no spill), and thus the timing is incorrect.

hit modules in bottom right corner -> Zones narrow and half-narrow for COMB_IRRAD, Zones wide and half-wide for COMM_IRRAD

Position of HEPHY x-z-table:
x = 322
z = 89

  28   Tue Oct 4 15:16:06 2011 Manfred ValentanMicronMicron-Baby-Stack p-spray, run bottom leftrun003200k04.10.2011 11:29:1904.10.2011 13:57:54Good

hit modules in bottom left corner -> Zones wide and half-wide for COMB_IRRAD, Zones narrow and half-narrow for BOMM_IRRAD

Position of HEPHY x-z-table:
x = 336
z = 89

  27   Tue Oct 4 10:47:59 2011 Manfred ValentanMicronInternal Calibrationcal0018380003.10.2011 20:34:4803.10.2011 20:50:57 

micronbaby p-stop stack
HV = -100V
beam on

  26   Tue Oct 4 10:44:48 2011 Christian IrmlerMicronInternal Calibrationcal0038380004.10.2011 10:33:5004.10.2011 10:48:51 

micronbaby p-spray/irrad
HV = -100V
beam on, baseline of irrad APV reduced

APV #2 (I²C addr. 40) deactivated, latency error after initialization, reset line open?

  25   Tue Oct 4 10:44:09 2011 Christian IrmlerMicronInternal Calibrationcal0028380004.10.2011 10:04:4904.10.2011 10:19:41 

micronbaby p-spray/irrad
HV = -100V
beam on,

irrad APVs with standard baseline settings --> too high

APV #2 (I²C addr. 40) deactivated, latency error after initialization, reset line open?

  24   Tue Oct 4 00:11:31 2011 Manfred ValentanMicronMicron-Baby-Stack p-stop, zones w & h-wrun00276000004.10.2011 00:11:0604.10.2011 09:01:06Good

hit modules in bottom left corner -> Zones wide and half-wide for all modules

Position of HEPHY x-z-table:
x = 336
z = 89

  23   Mon Oct 3 21:08:27 2011 Manfred ValentanMicronMicron-Baby-Stack p-stop, configuration     

Photo of hand-drawn stack configuration, config files

Attachment 1: Micron-Baby-Stack_p-stop.png
Micron-Baby-Stack_p-stop.png
Attachment 2: cern11_micronbaby_pstop_single.cfg
# 40 mhz
# single peak mode (1 sample)
# 50ns peaking time
# 30ns trigger window (built from 5ns window, thus ~12.5ns later)
# NECO
#
# Data processing with FADC+PROC
# FADC 0 = p-side ch 4-7 origami;
# FADC 1 = n-side ch 4-7 origami;
#
# CERN SPS testbeam 2011 
# micron baby stack with p-stop sensors
#
# CI 3 Oct 2011
#
#
# Lines preceded by a # or ; sign are ignored.
#
# [rem] comments a whole section until the next section start marked by [xxx] .
#

# [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 = 0,0x1a000000

adf = 0,0x1b000000
adf = 1,0x2b000000

# [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 = 63,-1,-1,-1,-1,-1,-1,-1
str = 100,-1,-1,-1,-1,-1,-1,-1

# TESTBEAM May 08, 30m cables, 40mhz, Tp=50ns, multi-trigger (6 samples)
#mod = 0,75,0,70,950,36,2,1
#htr = 61,64,-1,-1,-1,-1,-1,-1
#str = 100,103,-1,-1,-1,-1,-1,-1

#common settings
res =  2, 4, -1, -1,-1,-1,-1,-1
cal =  2, 3,250,251,-1,-1,-1,-1
sw5 =  2, 3, -1, -1,-1,-1,-1,-1




# [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 May 08
#Standard
ads = 250,1,0,x

# TESTBEAM May 08
#Multitrigger (6)
#ads = 950,6,0,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,D:\cern11\micronbaby\data

#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_seed_strip},{hitcut_neighbor_strips}
#  nok = {x.x},0
#  
#
# hcs gives seed and neighbor hit cuts in units of strip sigma
# nok states the threshold over average noise at which strips are excluded from further analysis (to exclude noisy strips)

[hit]
# si sensor
hcs = 4.0,4.0

# 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

#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 = 50,500
grp = 8,0

#6-tuple mode settings
lg6 = 97, 1
lv6 =  1,200




# [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,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4

# apv25s1, peak, inverter OFF, Tp=50ns, (n side)
ia2 =          1,    31,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4


# apv25s1, multi-peak, inverter ON, Tp=50ns, (p side)
#ia2 =          0,    61,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4

# apv25s1, multi-peak, inverter OFF, Tp=50ns, (n side)
#ia2 =          1,    29,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4


# [mod]
# Detector module (actually hybrid) specifications are given in the format
#  mod = {module_position},{crate_number},{mambo_number},{rebo_number},{hybrid_number},m,{AD8128_peak},{rebo_clkdelay},{rebo_trgdelay},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.


[mod]
# mambo 0
mod = 0,0,0,2,0,m,45,25,0,0,0,0,0, atoll-2
apv = 0,0,38,1,30,x,0,0,5,0,2,22,100,x  
apv = 0,1,40,1,30,x,0,0,5,0,3,16,100,x

mod = 1,0,0,2,1,m,45,25,0,0,0,0,0, comb-2
apv = 1,0,38,1,30,x,0,0,5,0,6,26,100,x  
apv = 1,1,40,1,30,x,0,0,5,0,7,22,100,x

mod = 2,0,0,2,2,m,45,25,0,0,0,0,0, comm-2
apv = 2,0,38,1,30,x,0,0,5,0,10,25,100,x  
apv = 2,1,40,1,30,x,0,0,5,0,11,25,100,x

mod = 3,0,0,2,3,m,45,25,0,0,0,0,0, atoll-1
apv = 3,0,38,1,30,x,0,0,5,0,14,25,100,x  
apv = 3,1,40,1,30,x,0,0,5,0,15,20,100,x

# mambo 1
mod = 4,0,1,1,0,m,45,25,0,0,0,0,0, comb-1
apv = 4,0,38,1,30,x,0,0,120,1,2,22,100,x  
apv = 4,1,40,1,30,x,0,0,120,1,3,20,100,x

mod = 5,0,1,1,1,m,45,25,0,0,0,0,0, comm-1
apv = 5,0,38,1,30,x,0,0,120,1,6,22,100,x  
apv = 5,1,40,1,30,x,0,0,120,1,7,18,100,x


# [bad]
# Bad channels description table
#  bad = {module_position},{apv_position},{List of 18 strip values or -1}
#
# Maps bad channels, which are then excluded from hit search. Up to 18 bad strips can be entered per line,
# more lines per APV are allowed. Unused values in the list must be filled with -1

[bad]
#### atoll-2 ####
# every second channel is removed at sensor side --> noisy --> bad
bad = 0,0,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 0,0,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 0,0,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 0,0,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1
bad = 0,1,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 0,1,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 0,1,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 0,1,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1

#### comb-2 ####
# every second channel is removed at sensor side --> noisy --> bad
bad = 1,0,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 1,0,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 1,0,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 1,0,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1
bad = 1,1,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 1,1,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 1,1,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 1,1,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1

#### comm-2 ####
# every second channel is removed at sensor side --> noisy --> bad
bad = 2,0,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
... 104 more lines ...
Attachment 3: cern11_micronbaby_pstop_multi6.cfg
# 40 mhz
# multi peak mode (6 samples)
# 50ns peaking time
# 30ns trigger window (built from 5ns window, thus ~12.5ns later)
# NECO
#
# Data processing with FADC+PROC
# FADC 0 = p-side ch 4-7 origami;
# FADC 1 = n-side ch 4-7 origami;
#
# CERN SPS testbeam 2011 
# micron baby stack with p-stop sensors
#
# CI 3 Oct 2011
#
#
# Lines preceded by a # or ; sign are ignored.
#
# [rem] comments a whole section until the next section start marked by [xxx] .
#

# [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 = 0,0x1a000000

adf = 0,0x1b000000
adf = 1,0x2b000000

# [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 = 63,-1,-1,-1,-1,-1,-1,-1
#str = 100,-1,-1,-1,-1,-1,-1,-1

# TESTBEAM May 08, 30m cables, 40mhz, Tp=50ns, multi-trigger (6 samples)
mod = 0,75,0,70,950,36,2,1
htr = 58,61,-1,-1,-1,-1,-1,-1
str = 100,103,-1,-1,-1,-1,-1,-1

#common settings
res =  2, 4, -1, -1,-1,-1,-1,-1
cal =  2, 3,250,251,-1,-1,-1,-1
sw5 =  2, 3, -1, -1,-1,-1,-1,-1




# [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 May 08
#Standard
#ads = 250,1,0,x

# TESTBEAM May 08
#Multitrigger (6)
ads = 950,6,0,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,D:\cern11\micronbaby\data

#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_seed_strip},{hitcut_neighbor_strips}
#  nok = {x.x},0
#  
#
# hcs gives seed and neighbor hit cuts in units of strip sigma
# nok states the threshold over average noise at which strips are excluded from further analysis (to exclude noisy strips)

[hit]
# si sensor
hcs = 4.0,4.0

# 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

#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 = 50,500
grp = 8,0

#6-tuple mode settings
lg6 = 97, 1
lv6 =  1,200




# [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,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4

# apv25s1, peak, inverter OFF, Tp=50ns, (n side)
#ia2 =          1,    31,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4


# apv25s1, multi-peak, inverter ON, Tp=50ns, (p side)
ia2 =          0,    61,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4

# apv25s1, multi-peak, inverter OFF, Tp=50ns, (n side)
ia2 =          1,    29,   95,    98,      52,    34,    34,    34,    55,      34,   30,   60,     0,       4


# [mod]
# Detector module (actually hybrid) specifications are given in the format
#  mod = {module_position},{crate_number},{mambo_number},{rebo_number},{hybrid_number},m,{AD8128_peak},{rebo_clkdelay},{rebo_trgdelay},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.


[mod]
# mambo 0
mod = 0,0,0,2,0,m,45,25,0,0,0,0,0, atoll-2
apv = 0,0,38,1,30,x,0,0,5,0,2,22,100,x  
apv = 0,1,40,1,30,x,0,0,5,0,3,16,100,x

mod = 1,0,0,2,1,m,45,25,0,0,0,0,0, comb-2
apv = 1,0,38,1,30,x,0,0,5,0,6,26,100,x  
apv = 1,1,40,1,30,x,0,0,5,0,7,22,100,x

mod = 2,0,0,2,2,m,45,25,0,0,0,0,0, comm-2
apv = 2,0,38,1,30,x,0,0,5,0,10,25,100,x  
apv = 2,1,40,1,30,x,0,0,5,0,11,25,100,x

mod = 3,0,0,2,3,m,45,25,0,0,0,0,0, atoll-1
apv = 3,0,38,1,30,x,0,0,5,0,14,25,100,x  
apv = 3,1,40,1,30,x,0,0,5,0,15,20,100,x

# mambo 1
mod = 4,0,1,1,0,m,45,25,0,0,0,0,0, comb-1
apv = 4,0,38,1,30,x,0,0,120,1,2,22,100,x  
apv = 4,1,40,1,30,x,0,0,120,1,3,20,100,x

mod = 5,0,1,1,1,m,45,25,0,0,0,0,0, comm-1
apv = 5,0,38,1,30,x,0,0,120,1,6,22,100,x  
apv = 5,1,40,1,30,x,0,0,120,1,7,18,100,x


# [bad]
# Bad channels description table
#  bad = {module_position},{apv_position},{List of 18 strip values or -1}
#
# Maps bad channels, which are then excluded from hit search. Up to 18 bad strips can be entered per line,
# more lines per APV are allowed. Unused values in the list must be filled with -1

[bad]
#### atoll-2 ####
# every second channel is removed at sensor side --> noisy --> bad
bad = 0,0,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 0,0,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 0,0,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 0,0,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1
bad = 0,1,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 0,1,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 0,1,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 0,1,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1

#### comb-2 ####
# every second channel is removed at sensor side --> noisy --> bad
bad = 1,0,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 1,0,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 1,0,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 1,0,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1
bad = 1,1,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
bad = 1,1,36, 38, 40, 42, 44, 46, 48, 50, 52, 54,  56,58,60,62,64, 66, 68, 70
bad = 1,1,72, 74, 76, 78, 80, 82, 84, 86, 88, 90,  92,94,96,98,100,102,104,106
bad = 1,1,108,110,112,114,116,118,120,122,124,126,-1,-1,-1,-1,-1, -1, -1, -1

#### comm-2 ####
# every second channel is removed at sensor side --> noisy --> bad
bad = 2,0,0,  2,  4,  6,  8,  10, 12, 14, 16, 18,  20,22,24,26,28, 30, 32, 34
... 104 more lines ...
  22   Mon Oct 3 21:01:00 2011 Manfred ValentanMicronMicron-Baby-Stack p-stop, zones n & h-nrun001200k03.10.2011 20:54:2203.10.2011 23:25:47Good

hit modules in top right corner -> Zones narrow and half-narrow for all modules

Position of HEPHY x-z-table:
x = 324
z = 103

  21   Mon Oct 3 20:30:14 2011 Thomas BergauercommonXY Tisch     

Grosser (DESY) Tisch:  x = -342.0    y = 343.0  (Einheiten unbekannt, möglicherweise mm)

Raten-Scan siehe gescannter Zettel im Attachment.

 

erster Wert: X, also horizontal (positive Zahlen: Saleve side = Restaurant Nr. 3)

zweiter Wert: Z, also Höhe (positive Zahlen nach unten)

Micron DUT: X:324, Z:103 [Einheiten in mm]

 

configuration: IP-Address 192.168.0.13; 2 Achsen

Attachment 1: xy-tisch-control.JPG
xy-tisch-control.JPG
Attachment 2: desy_xy_table.jpg
desy_xy_table.jpg
  20   Mon Sep 19 17:47:50 2011 Manfred ValentanMicronModule COMM-IRRAD     

Sensor: B2Micron_2826_07_Baby2 (reused from last year, was DUT3, module is irradiated to 700 kGy)

p-stop: Common, with intermediate strips, irradiated

Hybrid p-side: H41
Hybrid n-side: M31

  19   Mon Sep 19 17:47:11 2011 Manfred ValentanMicronModule COMB-IRRAD     

Sensor: B2Micron_2826_19_Baby4 (reused from last year, was DUT4, module is irradiated to 700 kGy)

p-stop: Combined, with intermediate strips, irradiated

Hybrid p-side: H48
Hybrid n-side: M35

  18   Mon Sep 19 17:46:07 2011 Manfred ValentanMicronModule ATOLL-1     

Sensor: B2Micron_2826_07_Baby3 (reused from last year, but was not used in beam test SPS2010)

p-stop: Atoll, with intermediate strips

Hybrid p-side: H40
Hybrid n-side: M30

  17   Mon Sep 19 17:44:39 2011 Manfred ValentanMicronModule COMB-1     

Sensor: B2Micron_2826_01_Baby4 (reused from last year, was TRK6)

p-stop: Combined, with intermediate strips

Hybrid p-side: H45
Hybrid n-side: M36

  16   Mon Sep 19 17:44:00 2011 Manfred ValentanMicronModule COMM-1     

Sensor: B2Micron_2826_19_Baby2 (reused from last year, was TRK7)

p-stop: Common, with intermediate strips

Hybrid p-side: H46
Hybrid n-side: M37

  15   Mon Sep 19 17:42:39 2011 Manfred ValentanMicronModule SPRAY-I-1     

Sensor: B2Micron_2825_15_Baby2

p-stop: p-spray WITH intermediate strips

Hybrid p-side: MB1
Hybrid n-side: MB9

  14   Mon Sep 19 17:42:01 2011 Manfred ValentanMicronModule SPRAY-1     

Sensor: B2Micron_2825_05_Baby3

p-stop: p-spray WITHOUT intermediate strips

Hybrid p-side: H32 (reused from last year)
Hybrid n-side: MB8

  13   Mon Sep 19 17:41:27 2011 Manfred ValentanMicronModule SPRAY-I-2     

Sensor: B2Micron_2825_15_Baby3

p-stop: p-spray WITH intermediate strips

Hybrid p-side: H43 (reused from last year)
Hybrid n-side: MB7

  12   Mon Sep 19 17:40:47 2011 Manfred ValentanMicronModule SPRAY-2     

Sensor: B2Micron_2825_05_Baby4

p-stop: p-spray WITHOUT intermediate strips

Hybrid p-side: H44 (reused from last year)
Hybrid n-side: MB6

  11   Mon Sep 19 17:39:55 2011 Manfred ValentanMicronModule COMB-2     

Sensor: B2Micron_2826_17_Baby4

p-stop: Combined with intermediate strips

Hybrid p-side: H42 (reused from last year)
Hybrid n-side: MB3

  10   Mon Sep 19 17:39:09 2011 Manfred ValentanMicronModule COMM-2     

Sensor: B2Micron_2826_17_Baby2

p-stop: Common, with intermediate strips

Hybrid p-side: H34 (reused from last year)
Hybrid n-side: MB4

  9   Mon Sep 19 17:38:34 2011 Manfred ValentanMicronModule ATOLL-2     

Sensor: B2Micron_2826_17_Baby3

p-stop: Atoll, with intermediate strips

Hybrid p-side: H35 (reused from last year)
Hybrid n-side: MB3

  8   Fri Sep 16 11:01:15 2011 Manfred ValentanMicronMicron Baby Modules     

Irradiated modules from last year:

COMB-IRRAD: B2Micron_2826_19_Baby4: combined p-stop, intermediate strips (was DUT4)
COMM-IRRAD: B2Micron_2826_07_Baby2: common p-stop, intermediate strips (was DUT3)
(the irradiated atoll p-stop sensor was destroyed for electron microscopy and SRP)

Unirradiated modules from last year:

COMB-1: B2Micron_2826_01_Baby4: combined p-stop, intermediate strips (was TRK6)
COMM-1: B2Micron_2826_19_Baby2: common p-stop, intermediate strips (was TRK7)
ATOLL-1: B2Micron_2826_07_Baby3: atoll p-stop, intermediate strips (was prepared, but not used in the beam test)

New modules:

SPRAY-I-1: B2Micron_2825_15_Baby2: p-spray, intermediate strips
SPRAY-I-2: B2Micron_2825_15_Baby3: p-spray, intermediate strips
SPRAY-1: B2Micron_2825_05_Baby3: p-spray, no intermediate strips
SPRAY-2: B2Micron_2825_05_Baby4: p-spray, no intermediate strips
COMB-2: B2Micron_2826_17_Baby4: combined p-stop, intermediate strips
COMM-2: B2Micron_2826_17_Baby2: common p-stop, intermediate strips
ATOLL-2: B2Micron_2826_17_Baby3: atoll p-stop, intermediate strips

 

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