ID |
Date |
Author |
Project |
Measurement Type |
Object ID |
Subject |
55
|
Mon Nov 30 17:23:51 2015 |
Hao Yin | Belle II | system | HardwareRun001 | |
ADC Hot, FIRRun001, PedestalRun001
room temp pedrun
target: BW |
Attachment 1: Room_bw_n.png
|
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Attachment 2: Room_bw_p.png
|
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56
|
Mon Nov 30 17:47:54 2015 |
Hao Yin | Belle II | system | HardwareRun002 | |
ADC Hot, FIRRun001, PedestalRun001
target: -Z
room temp pedrun
|
Attachment 1: Room_-z_n.png
|
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Attachment 2: Room_-z_p.png
|
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57
|
Mon Nov 30 18:32:13 2015 |
Hao Yin | Belle II | system | ADC 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 Yin | Belle II | system | FIRRun_Cold | |
ADC Cold diff to hot: 1-3 adc delay config (max 1.5 ns)
|
59
|
Mon Nov 30 18:45:49 2015 |
Hao Yin | Belle II | system | PedestalRun_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 Yin | Belle II | system | Hardware_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
|
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Attachment 2: Cold_-z_p.png
|
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61
|
Mon Nov 30 19:01:54 2015 |
Hao Yin | Belle II | system | Hardware_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
|
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Attachment 2: Cold_ce_p.png
|
|
62
|
Mon Nov 30 19:48:05 2015 |
Hao Yin | Belle II | system | Hardware_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
|
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Attachment 2: RoomTemp_with_cold_config_ce_n.png
|
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63
|
Mon Nov 30 20:06:15 2015 |
Hao Yin | Belle II | system | Hardware_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
|
|
Attachment 2: RoomTemp_with_cold_config_-z_n.png
|
|
64
|
Mon Nov 30 20:16:37 2015 |
Hao Yin | Belle II | system | Hardware_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
|
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Attachment 2: RoomTemp_with_cold_config_-z_n_3.png
|
|
65
|
Mon Nov 30 20:27:42 2015 |
Hao Yin | Belle II | system | Hardware_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
|
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Attachment 2: RoomTemp_with_cold_config_-z_n_5.png
|
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67
|
Mon Nov 30 22:35:41 2015 |
Hao Yin | Belle II | system | Hardware_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
|
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Attachment 2: RoomTemp_with_cold_config_-z_n_9.png
|
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1
|
Fri Apr 18 17:23:26 2008 |
Markus Friedl | SPS Testbeam June08 | hybrid | hybrid 01 | Noise of hybrid 01, sensor fully bonded, no HV |
HV bias not yet glued to backplane |
Attachment 1: hybrid01_sen_nohv_pednoise_apv0.png
|
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Attachment 2: hybrid01_sen_nohv_pednoise_apv1.png
|
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2
|
Tue Apr 22 19:34:09 2008 |
Markus Friedl | SPS Testbeam June08 | module | hybrid 01 | Properties of hybrid 01, sensor fully bonded, HV=100V |
HV bias glued to backplane, HV=100V |
Attachment 1: hybrid01_sen_hv100V_cal_apv0.png
|
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Attachment 2: hybrid01_sen_hv100V_cal_apv1.png
|
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Attachment 3: hybrid01_sen_hv100V_pednoise_apv0.png
|
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Attachment 4: hybrid01_sen_hv100V_pednoise_apv1.png
|
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Attachment 5: hybrid01_sen_hv100V_cmnoise_apv0.png
|
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Attachment 6: hybrid01_sen_hv100V_cmnoise_apv1.png
|
|
3
|
Wed Apr 23 13:05:05 2008 |
Christian Irmler | SPS Testbeam June08 | source | hybrid 01 | time correlation between TDC and sensor measurement -> 3.1 ns RMS |
|
Attachment 1: vie_run001_tpeak_vs_TDC.gif
|
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4
|
Wed Apr 23 13:37:18 2008 |
Markus Friedl | SPS Testbeam June08 | source | hybrid 01 | analysis 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
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Attachment 2: vie_run001_cluster_noi_0.gif
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Attachment 3: vie_run001_cluster_hit_0.gif
|
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Attachment 4: vie_run001_cluster_clw_0.gif
|
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6
|
Wed May 7 15:24:49 2008 |
Christian Irmler | SPS Testbeam June08 | module | module 10/02 | properties (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
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Attachment 2: modul1002_1row_cal_apv1.png
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Attachment 3: modul1002_1row_cmnoise_apv0.png
|
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Attachment 4: modul1002_1row_cmnoise_apv1.png
|
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Attachment 5: modul1002_1row_pednoise_apv0.png
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Attachment 6: modul1002_1row_pednoise_apv1.png
|
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Attachment 7: modul1002_final_cal_apv0.png
|
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Attachment 8: modul1002_final_cal_apv1.png
|
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Attachment 9: modul1002_final_cmnoise_apv0.png
|
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Attachment 10: modul1002_final_cmnoise_apv1.png
|
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Attachment 11: modul1002_final_pednoise_apv0.png
|
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Attachment 12: modul1002_final_pednoise_apv1.png
|
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9
|
Wed May 7 15:26:24 2008 |
Christian Irmler | SPS Testbeam June08 | module | module 20/09 | properties (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
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Attachment 2: modul2009_1row_cal_apv1.png
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Attachment 3: modul2009_1row_cmnoise_apv0.png
|
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Attachment 4: modul2009_1row_cmnoise_apv1.png
|
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Attachment 5: modul2009_1row_pednoise_apv0.png
|
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Attachment 6: modul2009_1row_pednoise_apv1.png
|
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Attachment 7: modul2009_final_cal_apv0.png
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Attachment 8: modul2009_final_cal_apv1.png
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Attachment 9: modul2009_final_cmnoise_apv0.png
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Attachment 10: modul2009_final_cmnoise_apv1.png
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Attachment 11: modul2009_final_pednoise_apv0.png
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Attachment 12: modul2009_final_pednoise_apv1.png
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8
|
Wed May 7 15:40:07 2008 |
Christian Irmler | SPS Testbeam June08 | module | module 07/07 | properties (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
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Attachment 2: modul0707_1row_cal_apv1.png
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Attachment 3: modul0707_1row_cmnoise_apv0.png
|
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Attachment 4: modul0707_1row_cmnoise_apv1.png
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Attachment 5: modul0707_1row_pednoise_apv0.png
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Attachment 6: modul0707_1row_pednoise_apv1.png
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Attachment 7: modul0707_final_cal_apv0.png
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Attachment 8: modul0707_final_cal_apv1.png
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Attachment 9: modul0707_final_cmnoise_apv0.png
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Attachment 10: modul0707_final_cmnoise_apv1.png
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Attachment 11: modul0707_final_pednoise_apv0.png
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Attachment 12: modul0707_final_pednoise_apv1.png
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7
|
Wed May 7 16:12:58 2008 |
Christian Irmler | SPS Testbeam June08 | module | module 12/08 | properties (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
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Attachment 2: modul0707_1row_cal_apv1.png
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Attachment 3: modul0707_1row_cmnoise_apv0.png
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Attachment 4: modul0707_1row_cmnoise_apv1.png
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Attachment 5: modul0707_1row_pednoise_apv0.png
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Attachment 6: modul0707_1row_pednoise_apv1.png
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Attachment 7: modul0707_final_cal_apv0.png
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Attachment 8: modul0707_final_cal_apv1.png
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Attachment 9: modul0707_final_cmnoise_apv0.png
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Attachment 10: modul0707_final_cmnoise_apv1.png
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Attachment 11: modul0707_final_pednoise_apv0.png
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Attachment 12: modul0707_final_pednoise_apv1.png
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