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User name adaq
Log entry time 18:08:31 on October 5, 2016
Entry number 413928
keyword=Start_Run_13711,Run_type=LED,target_type=Home(no target, or empty),comment_text=DVCS Calo LED tests, calo validation at 260
Run Timestamp: Wed Oct 5 18:07:56 EDT 2016
CODA Config : DVCS
Beginning-of-run EPICS data for Run Number 13711 at Wed Oct 5 18:07:59 EDT 2016
Shift Worker Info
Run_type=LED
target_type=Home(no target, or empty)
comment_text=DVCS Calo LED tests, calo validation at 260
Prescale Values
;This file is automatically generated from L-HRS prescales GUI.
;To generate this file, type "prescaleL" without quotes on adaq@adaq1
;Input the desired prescales and Save.
;T1 = L-arm s0 && S2m trigger
;T2 = L-arm s0 && GC trigger
;T3 = L-arm s2 && GC trigger
;T4 = L-arm s0 && Shower trigger
;T5 = L-arm s2m && Shower trigger
;T6 = L-arm GC && Shower trigger
;T7 = L-arm EDTM trigger
;T8 = 103.7 KHz pulser
;T9 = DVCS trigger
;T10 = Misc. trigger
;T11 = Unknown trigger
;T12 = Unknown trigger
ps1=0,ps2=0,ps3=0,ps4=0,ps5=0,ps6=0,ps7=0,ps8=0,ps9=1,ps10=0,ps11=0,ps12=0
Right and Left MLU settings
Left MLU settings
0 0xffff
time of Left HRS MLU last setting Oct 5 at 15:16
Right MLU settings
1 0xffff
time of Right HRS MLU last setting Oct 5 at 15:16
The meaning of the settings is documented elsewhere; briefly:
first number is 0 or 1
0 = standard GMp trigger
1 = single detector trigger
second number is a bit mask
bit=1 means output is enabled
bit=0 means output is disabled
only last 8 bits are relevant for NIM output
DVCS Trigger Status
### DVCS trigger; Status at start
VME FPGA: FWRev=0x00001E01, Code1=0x10212010, Code2=0x01ABCFDE
CTRL FPGA: FWRev=0x09232014
DATA FPGA0: FWRev=0x00000300
DATA FPGA1: FWRev=0x00000300
DATA FPGA2: FWRev=0x00000300
Global Theshold=20
Cluster Threshold (Data1)=260
Cluster Threshold (Data2)=260
Cluster Threshold (Data3)=260
Require Cluster=1
Gate Width=20 (100ns)
Prescale Clock=1
Prescale Cosmic=0
Prescale S2M and NCER=0
Prescale S0 and S1=0
Prescale S0 and S2M=0
Prescale S0 and CER=0
Prescale S1 and S2M=0
Prescale S1 and CER=0
Prescale S2M and CER=0
Prescale S2M and CER(2)=0
Auto validated trigger pattern bits (raw value==0x0):
FIFO Status=0x00001000,Len=0,Full=0,Empty=1
Data1 Pedestals:
2035 2046 2040 2029 2049 2025 2025 2032 2021 2035 2027 2027 2038 2039 2042 2023 2035 2033 2018 2017 2032 2033 2022 2049 2038 2043 2038 2053 2029 2024 2023 2026 2023 2039 2031 2026 2028 2024 2027 2027 2029 2030 2028 2029 2035 2036 2025 2014 2032 2026 2022 2011 2037 2039 2031 2018 2035 2033 2039 2024 2032 2037 2041 2049 2030 2029 2028 2021 2032 2033 2016 2029 2029 2040 2036 2023 2036 2036 2038 2046
Data2 Pedestals:
2028 2036 2020 2015 2031 2041 2008 2028 2024 2030 2022 2040 2033 2038 2034 2034 2020 2023 2049 2030 2036 2040 2041 2036 2021 2033 2030 2032 2025 2032 2049 2042 2039 2029 2024 2038 2031 2045 2014 2040 2024 2039 2032 2038 2020 2012 2024 2021 2025 2020 2030 2034 2027 2033 2033 2025 2031 2034 2033 2021 2039 2047 2038 2042 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048
Data3 Pedestals:
2030 2040 2020 2035 2040 2024 2018 2038 2039 2036 2027 2024 2050 2031 2035 2023 2040 2041 2033 2046 2034 2025 2036 2029 2052 2028 2033 2051 2025 2044 2024 2028 2053 2042 2020 2034 2033 2026 2033 2033 2037 2011 2037 2009 2037 2029 2029 2026 2035 2036 2031 2039 2021 2031 2035 2037 2030 2017 2019 2034 2024 2030 2033 2028 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048 2048
General Run Info
------
Beam Energy Information:
Set Beam energy (MeV) : 2218.49
Tiefenbach 6GeV Beam energy (MeV) : 2216.26
Tiefenbach 6GeV orbit correction (dpp) : 0
Injector Measured Energy : 116.414
Average North Linac Measured Energy : 1049.09533333333333
Average South Linac Measured Energy : 1049.83333333333333
MBSY1c Magnet Current : 4
MBSY1c Bdl : 553719
Hall A ARC Current : 0.00885023
Hall A ARC Set Current : 92.4872
Lock [Y/N] : NO
Position [mm] : 0
Field [T] :0.146664
IPM1C12.XPOS : 0
------
Beam Current : 0.0592234
------
Left arm angle : -0.179
Left arm momentum : 0.00237675
Right arm angle : 0.197
Right arm momentum : 0.00451585
------
Fast Raster-A Ix : 51
Fast Raster-A Iy : 48
Fast Raster-B Ix : 50
Fast Raster-B Iy : 50
Misc Epics Info
Left Arm Q1 momentum : 0.0048347
Left Arm Q1 power supply (readback) : 0
Left Arm Q1 power supply (setpoint) : 0
Left Arm Q1 gauss meter : 0
Left Arm Q2 power supply current : 0.0222831
Left Arm Q2 momentum : 0.0018311
Left Arm Q2 gauss meter : 0.0005569
Left Arm Q2 power supply polarity : disabled
Left Arm D1 power supply current : 0.0446754
Left Arm D1 momentum : 0.00237675
Left Arm D1 NMR : 0.479862
Left Arm Q3 power supply current : -0.00725925
Left Arm Q3 momentum : -1.82339e-05
Left Arm Q3 gauss meter : -0.00024428
Left Arm Q3 power supply polarity : disabled
Left Arm B Field Hall Probe (D-G) : -0.0008568
-----
Average current of the two cavities : 0.0592234
Current on Upstream bcm : 0.0636059
Current on Downstream bcm : 0.0548409
Upstream Cavity Coefficient : 42.6
Downstream Cavity Coefficient : 43.8
Set Gain on Upstream bcm (new receiver): 63
Set Gain on Downstream bcm (new receiver) : 63
Readback Gain on Upstream bcm (new receiver): 65535
Readback Gain on Downstream bcm (new receiver) : 65535
Upstream Cavity Coefficient (new receiver) : 0
Downstream Cavity Coefficient (new receiver) : 0
Upstream Pedestal (new receiver): 0
Downstream Pedestal (new receiver) : 0
DACSL1 A (new receiver): 255
DACSL1 B (new receiver) : 255
DACSL2 A (new receiver): 255
DACSL2 B (new receiver) : 255
-----
Raw Upstream Signal (new receiver): -1
Raw Downstream Signal (new receiver) : -1
Current on Upstream bcm (new receiver) in uA: -0
Current on Downstream bcm (new receiver) in uA: -0
-----
HacL_HPE1313A:0_Ch58 : -0.230957
HacL_HPE1313A:0_Ch55 : 22.9004
HacL_HPE1313A:0_Ch54 : -0.00292969
Left Arm Angle Floor Angle : 0
Left Arm Angle Vernier : 0
Left Arm Scattering Angle : -0.179
Left Arm Collimator encoder :0.0607422
-----
Right Arm Angle Floor Angle : 0
Right Arm Angle Vernier : 0
Right Arm Scattering Angle : 0.197
-----
IPM1H04A.XPOS : 0
IPM1H04A.YPOS : 0
IPM1H04B.XPOS : 0
IPM1H04B.YPOS : 0
Survey X offset bpmA : 0
Survey Y offset bpmA : 0
Survey X offset bpmB : 0
Survey Y offset bpmB : 0
-----
Wien angle (Vertical) : 0
Wien Vertical BDL (Gcm) : 9.37619e-06
Wien HV Polarity : POSITIVE
Wien electrode Voltage : 0
Wien angle (Solenoids) : 0.0716692
Wien BDL (First Solenoid) (Gcm) : 978
Wien BDL (Second Solenoid) (Gcm) : -976.409
Wien angle (Horizontal) : 53.8899
Wien BDL (Gcm) : 1554.3
Wien HV Polarity (Horizontal) : POSITIVE
Wien electrode Voltage (Horizontal) : 0
Laser attenuation Hall A : 279.995
Laser power Hall A : 0
Rotating waveplate : 2.84217e-13
Fake Half-Wave Plate (8960=OUT) : 13119
Beam Half-wave plate (off=out) : OUT
-----
Helicity Delay Set : No Delay
Helicity Pattern Set : Quartet
Helicity Clock Set : Free Clock
Helicity Settle Read : 500
Helicity Stable Read : 33330
Helicity Delay Read : No Delay
Helicity Pattern : Quartet
Helicity Clock Read : Free Clock
Helicity Frequency : 29.5596
-----
target OTR In/Out : Out
-----
Moeller quadrupole currents:
MQK1H01M : -1.57037
MQO1H02M : -252.315
MQM1H02M : -250.059
MQO1H03M : 100.016
MQO1H03AM : 246.593
MQA1H04M : -1.26373
-----
Target Info
-----
Target : Loop 2
fan frequency loop 1 : 0
fan frequency loop 2 : 0
fan frequency loop 3 : 0
Encoder position : 2.59535e+07
Target type : 2.59535e+07
temperature loop 1(1) : 295.47
temperature loop 1(2) : 294.93
temperature loop 1(3) : 294.99
Heat exchange loop 1 H2 : 293.31
temperature loop 2(1) : 293.31
temperature loop 2(2) : 293.9
temperature loop 2(3) : 293.96
Heat exchange loop 2 LH2 : 292.97
temperature loop 3(1) : 295.72
temperature loop 3(2) : 295.25
temperature loop 3(3) : 296.39
Heat exchange loop 3 H2 : 294.68
pressure loop H2 before : 14.4823
pressure loop H2 return : 16.0387
pressure loop H2 before : 14.8531
pressure loop H2 return : 15.0408
HPH loop 1 : 4.51654
HPH loop 2 : 2.32318
HPH loop 3 : 2.56052
DVCS Calorimeter
Measured HV voltages
15 : -99.3 -99.7 -100.7 -99.9 -100.0 -100.6 -99.4 -100.3 -101.1 -100.2 -98.8 -101.1 -99.7
14 : -99.3 -100.9 -100.7 -100.4 -100.5 -100.2 -100.3 -100.8 -101.2 -100.7 -99.8 -101.9 -98.4
13 : -99.6 -100.6 -99.9 -101.0 -100.8 -101.1 -99.5 -101.4 -100.7 -99.2 -100.3 -100.1 -98.3
12 : -99.3 -99.8 -100.7 -99.4 -101.0 -100.3 -98.7 -100.0 -101.9 -99.8 -99.4 -99.7 -99.2
11 : -101.9 -98.8 -100.1 -101.9 -99.6 -100.3 -101.3 -100.5 -100.9 -100.1 -98.5 -100.2 -99.9
10 : -100.8 -99.9 -99.1 -101.4 -100.0 -101.7 -101.0 -101.1 -101.0 -99.5 -98.9 -101.2 -100.5
09 : -102.0 -100.6 -99.9 -100.7 -99.4 -101.2 -101.7 -99.5 -101.3 -99.9 -98.9 -100.1 -100.0
08 : -101.4 -99.4 -100.9 -102.4 -99.1 -101.0 -99.7 -100.0 -100.8 -100.5 -99.1 -99.3 -101.0
07 : -101.4 -100.4 -99.5 -101.7 -101.4 -99.5 -100.1 -100.2 -99.7 -100.4 -101.1 -99.2 -98.1
06 : -100.5 -100.6 -99.8 -101.8 -100.6 -98.9 -101.3 -100.5 -98.9 -100.3 -100.4 -100.4 -102.2
05 : -100.8 -100.9 -99.1 -101.6 -100.7 -99.8 -99.7 -101.5 -100.3 -100.0 -101.0 -100.5 -102.4
04 : -102.4 -100.1 -100.0 -100.1 -100.2 -99.0 -100.9 -100.9 -100.2 -99.1 -99.9 -99.2 -100.3
03 : -100.0 -99.2 -100.1 -100.5 -100.6 -100.5 -99.8 -100.1 -100.3 -99.5 -102.2 -99.8 -98.4
02 : -101.0 -98.9 -100.5 -101.0 -101.0 -101.7 -99.8 -101.4 -101.4 -97.8 -101.4 -100.6 -100.6
01 : -98.5 -99.9 -100.8 -100.7 -101.3 -101.4 -101.2 -100.7 -100.7 -98.8 -99.9 -99.8 -102.2
00 : -98.8 -100.5 -100.7 -99.7 -99.7 -101.0 -99.6 -101.1 -100.6 -100.6 -100.6 -101.3 -99.6
Measured HV currents
15 : -96.7 -98.7 -96.2 -99.3 -98.6 -97.2 -98.5 -101.4 -100.4 -100.5 -99.6 -99.5 -104.9
14 : -100.6 -102.3 -101.1 -97.3 -102.1 -98.9 -99.5 -95.6 -99.6 -102.9 -98.8 -102.9 -99.6
13 : -98.8 -97.2 -97.9 -101.3 -97.6 -100.7 -102.2 -101.1 -99.0 -97.3 -97.0 -97.4 -98.6
12 : -97.7 -100.4 -98.4 -98.6 -98.7 -101.1 -97.4 -95.2 -96.3 -100.8 -96.2 -99.9 -103.3
11 : -101.2 -99.4 -96.2 -98.6 -97.9 -98.1 -104.1 -99.0 -99.9 -96.7 -101.4 -95.7 -100.7
10 : -97.8 -97.9 -101.7 -96.7 -101.8 -99.8 -100.4 -100.9 -100.1 -95.6 -99.7 -101.5 -102.9
09 : -101.2 -96.4 -98.3 -101.0 -98.1 -100.3 -102.8 -99.1 -98.0 -100.1 -97.3 -99.2 -100.7
08 : -98.7 -102.3 -98.7 -98.1 -97.7 -98.3 -101.6 -96.1 -97.7 -98.7 -100.5 -100.5 -101.7
07 : -102.4 -97.8 -100.2 -99.4 -98.7 -100.0 -103.6 -99.1 -100.4 -98.9 -99.0 -96.7 -100.9
06 : -97.1 -98.1 -98.9 -99.1 -99.9 -100.9 -100.3 -96.7 -99.9 -94.9 -97.7 -100.4 -99.6
05 : -99.9 -102.2 -98.1 -103.4 -99.7 -96.6 -102.4 -102.0 -101.0 -100.5 -98.6 -99.1 -104.6
04 : -99.6 -98.8 -102.3 -98.0 -102.0 -100.8 -98.6 -97.7 -98.4 -99.8 -103.2 -98.1 -99.6
03 : -99.1 -97.7 -99.1 -98.4 -97.5 -96.3 -102.4 -100.2 -101.7 -100.5 -100.7 -100.6 -100.2
02 : -96.1 -100.4 -101.3 -97.4 -98.4 -101.6 -99.9 -96.9 -98.6 -94.7 -97.9 -98.9 -102.7
01 : -99.7 -101.6 -97.5 -103.0 -98.3 -98.9 -101.8 -101.6 -100.7 -99.4 -100.8 -100.4 -101.7
00 : -100.1 -99.5 -98.4 -99.1 -101.3 -99.5 -101.2 -98.7 -100.7 -100.7 -99.5 -96.2 -100.2
Measured HV for DVCS Cosmic paddels
-------------------------------------------------------------------
DVCS Cosmic Padels TOP
TOP1: 1 RC s13.10 mv -100.1
TOP2: 1 RC s13.11 mv -100.6
DVCS Cosmic Padels BOTTOM
BOTTOM1: 1 RC s13.5 mv -101.7
BOTTOM2: 1 RC s13.4 mv -101.1
-------------------------------------------------------------------
Measured anode currents:
DVCS IOCHACS is LIVE !!
caget -t -f3 haVMI3128_1_AI1
caget -t -f3 haVMI3128_1_AI2
caget -t -f3 haVMI3128_1_AI3
caget -t -f3 haVMI3128_1_AI4
caget -t -f3 haVMI3128_1_AI5
caget -t -f3 haVMI3128_1_AI6
caget -t -f3 haVMI3128_1_AI7
caget -t -f3 haVMI3128_1_AI8
caget -t -f3 haVMI3128_1_AI9
caget -t -f3 haVMI3128_1_AI10
caget -t -f3 haVMI3128_1_AI11
caget -t -f3 haVMI3128_1_AI12
caget -t -f3 haVMI3128_1_AI13
caget -t -f3 haVMI3128_1_AI14
caget -t -f3 haVMI3128_1_AI15
caget -t -f3 haVMI3128_1_AI16
caget -t -f3 haVMI3128_1_AI17
caget -t -f3 haVMI3128_1_AI18
caget -t -f3 haVMI3128_1_AI19
caget -t -f3 haVMI3128_1_AI20
caget -t -f3 haVMI3128_1_AI21
caget -t -f3 haVMI3128_1_AI22
caget -t -f3 haVMI3128_1_AI23
caget -t -f3 haVMI3128_1_AI24
caget -t -f3 haVMI3128_1_AI25
caget -t -f3 haVMI3128_1_AI26
caget -t -f3 haVMI3128_1_AI27
caget -t -f3 haVMI3128_1_AI28
caget -t -f3 haVMI3128_1_AI29
caget -t -f3 haVMI3128_1_AI30
caget -t -f3 haVMI3128_1_AI31
caget -t -f3 haVMI3128_1_AI32
caget -t -f3 haVMI3128_1_AI33
caget -t -f3 haVMI3128_1_AI34
caget -t -f3 haVMI3128_1_AI35
caget -t -f3 haVMI3128_1_AI36
caget -t -f3 haVMI3128_1_AI37
caget -t -f3 haVMI3128_1_AI38
caget -t -f3 haVMI3128_1_AI39
caget -t -f3 haVMI3128_1_AI40
caget -t -f3 haVMI3128_1_AI41
caget -t -f3 haVMI3128_1_AI42
caget -t -f3 haVMI3128_1_AI43
caget -t -f3 haVMI3128_1_AI44
caget -t -f3 haVMI3128_1_AI45
caget -t -f3 haVMI3128_1_AI46
caget -t -f3 haVMI3128_1_AI47
caget -t -f3 haVMI3128_1_AI48
caget -t -f3 haVMI3128_1_AI49
caget -t -f3 haVMI3128_1_AI50
caget -t -f3 haVMI3128_1_AI51
caget -t -f3 haVMI3128_1_AI52
caget -t -f3 haVMI3128_1_AI53
caget -t -f3 haVMI3128_1_AI54
caget -t -f3 haVMI3128_1_AI55
caget -t -f3 haVMI3128_1_AI56
caget -t -f3 haVMI3128_1_AI57
caget -t -f3 haVMI3128_1_AI58
caget -t -f3 haVMI3128_1_AI59
caget -t -f3 haVMI3128_1_AI60
caget -t -f3 haVMI3128_1_AI61
caget -t -f3 haVMI3128_1_AI62
caget -t -f3 haVMI3128_1_AI63
caget -t -f3 haVMI3128_1_AI64
caget -t -f3 haVMI3128_2_AI1
caget -t -f3 haVMI3128_2_AI2
caget -t -f3 haVMI3128_2_AI3
caget -t -f3 haVMI3128_2_AI4
caget -t -f3 haVMI3128_2_AI5
caget -t -f3 haVMI3128_2_AI6
caget -t -f3 haVMI3128_2_AI7
caget -t -f3 haVMI3128_2_AI8
caget -t -f3 haVMI3128_2_AI9
caget -t -f3 haVMI3128_2_AI10
caget -t -f3 haVMI3128_2_AI11
caget -t -f3 haVMI3128_2_AI12
caget -t -f3 haVMI3128_2_AI13
caget -t -f3 haVMI3128_2_AI14
caget -t -f3 haVMI3128_2_AI15
caget -t -f3 haVMI3128_2_AI16
caget -t -f3 haVMI3128_2_AI17
caget -t -f3 haVMI3128_2_AI18
caget -t -f3 haVMI3128_2_AI19
caget -t -f3 haVMI3128_2_AI20
caget -t -f3 haVMI3128_2_AI21
caget -t -f3 haVMI3128_2_AI22
caget -t -f3 haVMI3128_2_AI23
caget -t -f3 haVMI3128_2_AI24
caget -t -f3 haVMI3128_2_AI25
caget -t -f3 haVMI3128_2_AI26
caget -t -f3 haVMI3128_2_AI27
caget -t -f3 haVMI3128_2_AI28
caget -t -f3 haVMI3128_2_AI29
caget -t -f3 haVMI3128_2_AI30
caget -t -f3 haVMI3128_2_AI31
caget -t -f3 haVMI3128_2_AI32
caget -t -f3 haVMI3128_2_AI33
caget -t -f3 haVMI3128_2_AI34
caget -t -f3 haVMI3128_2_AI35
caget -t -f3 haVMI3128_2_AI36
caget -t -f3 haVMI3128_2_AI37
caget -t -f3 haVMI3128_2_AI38
caget -t -f3 haVMI3128_2_AI39
caget -t -f3 haVMI3128_2_AI40
caget -t -f3 haVMI3128_2_AI41
caget -t -f3 haVMI3128_2_AI42
caget -t -f3 haVMI3128_2_AI43
caget -t -f3 haVMI3128_2_AI44
caget -t -f3 haVMI3128_2_AI45
caget -t -f3 haVMI3128_2_AI46
caget -t -f3 haVMI3128_2_AI47
caget -t -f3 haVMI3128_2_AI48
caget -t -f3 haVMI3128_2_AI49
caget -t -f3 haVMI3128_2_AI50
caget -t -f3 haVMI3128_2_AI51
caget -t -f3 haVMI3128_2_AI52
caget -t -f3 haVMI3128_2_AI53
caget -t -f3 haVMI3128_2_AI54
caget -t -f3 haVMI3128_2_AI55
caget -t -f3 haVMI3128_2_AI56
caget -t -f3 haVMI3128_2_AI57
caget -t -f3 haVMI3128_2_AI58
caget -t -f3 haVMI3128_2_AI59
caget -t -f3 haVMI3128_2_AI60
caget -t -f3 haVMI3128_2_AI61
caget -t -f3 haVMI3128_2_AI62
caget -t -f3 haVMI3128_2_AI63
caget -t -f3 haVMI3128_2_AI64
caget -t -f3 haVMI3128_3_AI1
caget -t -f3 haVMI3128_3_AI2
caget -t -f3 haVMI3128_3_AI3
caget -t -f3 haVMI3128_3_AI4
caget -t -f3 haVMI3128_3_AI5
caget -t -f3 haVMI3128_3_AI6
caget -t -f3 haVMI3128_3_AI7
caget -t -f3 haVMI3128_3_AI8
caget -t -f3 haVMI3128_3_AI9
caget -t -f3 haVMI3128_3_AI10
caget -t -f3 haVMI3128_3_AI11
caget -t -f3 haVMI3128_3_AI12
caget -t -f3 haVMI3128_3_AI13
caget -t -f3 haVMI3128_3_AI14
caget -t -f3 haVMI3128_3_AI15
caget -t -f3 haVMI3128_3_AI16
caget -t -f3 haVMI3128_3_AI17
caget -t -f3 haVMI3128_3_AI18
caget -t -f3 haVMI3128_3_AI19
caget -t -f3 haVMI3128_3_AI20
caget -t -f3 haVMI3128_3_AI21
caget -t -f3 haVMI3128_3_AI22
caget -t -f3 haVMI3128_3_AI23
caget -t -f3 haVMI3128_3_AI24
caget -t -f3 haVMI3128_3_AI25
caget -t -f3 haVMI3128_3_AI26
caget -t -f3 haVMI3128_3_AI27
caget -t -f3 haVMI3128_3_AI28
caget -t -f3 haVMI3128_3_AI29
caget -t -f3 haVMI3128_3_AI30
caget -t -f3 haVMI3128_3_AI31
caget -t -f3 haVMI3128_3_AI32
caget -t -f3 haVMI3128_3_AI33
caget -t -f3 haVMI3128_3_AI34
caget -t -f3 haVMI3128_3_AI35
caget -t -f3 haVMI3128_3_AI36
caget -t -f3 haVMI3128_3_AI37
caget -t -f3 haVMI3128_3_AI38
caget -t -f3 haVMI3128_3_AI39
caget -t -f3 haVMI3128_3_AI40
caget -t -f3 haVMI3128_3_AI41
caget -t -f3 haVMI3128_3_AI42
caget -t -f3 haVMI3128_3_AI43
caget -t -f3 haVMI3128_3_AI44
caget -t -f3 haVMI3128_3_AI45
caget -t -f3 haVMI3128_3_AI46
caget -t -f3 haVMI3128_3_AI47
caget -t -f3 haVMI3128_3_AI48
caget -t -f3 haVMI3128_3_AI49
caget -t -f3 haVMI3128_3_AI50
caget -t -f3 haVMI3128_3_AI51
caget -t -f3 haVMI3128_3_AI52
caget -t -f3 haVMI3128_3_AI53
caget -t -f3 haVMI3128_3_AI54
caget -t -f3 haVMI3128_3_AI55
caget -t -f3 haVMI3128_3_AI56
caget -t -f3 haVMI3128_3_AI57
caget -t -f3 haVMI3128_3_AI58
caget -t -f3 haVMI3128_3_AI59
caget -t -f3 haVMI3128_3_AI60
caget -t -f3 haVMI3128_3_AI61
caget -t -f3 haVMI3128_3_AI62
caget -t -f3 haVMI3128_3_AI63
caget -t -f3 haVMI3128_3_AI64
caget -t -f3 haVMI3128_4_AI1
caget -t -f3 haVMI3128_4_AI2
caget -t -f3 haVMI3128_4_AI3
caget -t -f3 haVMI3128_4_AI4
caget -t -f3 haVMI3128_4_AI5
caget -t -f3 haVMI3128_4_AI6
caget -t -f3 haVMI3128_4_AI7
caget -t -f3 haVMI3128_4_AI8
caget -t -f3 haVMI3128_4_AI9
caget -t -f3 haVMI3128_4_AI10
caget -t -f3 haVMI3128_4_AI11
caget -t -f3 haVMI3128_4_AI12
caget -t -f3 haVMI3128_4_AI13
caget -t -f3 haVMI3128_4_AI14
caget -t -f3 haVMI3128_4_AI15
caget -t -f3 haVMI3128_4_AI16
caget -t -f3 haVMI3128_4_AI17
caget -t -f3 haVMI3128_4_AI18
caget -t -f3 haVMI3128_4_AI19
caget -t -f3 haVMI3128_4_AI20
caget -t -f3 haVMI3128_4_AI21
caget -t -f3 haVMI3128_4_AI22
caget -t -f3 haVMI3128_4_AI23
caget -t -f3 haVMI3128_4_AI24
caget -t -f3 haVMI3128_4_AI25
caget -t -f3 haVMI3128_4_AI26
caget -t -f3 haVMI3128_4_AI27
caget -t -f3 haVMI3128_4_AI28
caget -t -f3 haVMI3128_4_AI29
caget -t -f3 haVMI3128_4_AI30
caget -t -f3 haVMI3128_4_AI31
caget -t -f3 haVMI3128_4_AI32
15 : -0.047 -0.007 0.002 -0.007 0.015 0.017 -0.011 0.020 0.007 0.024 0.016 0.033 0.008
14 : -0.047 0.008 -0.022 -0.011 0.014 0.010 0.007 0.015 0.025 0.027 0.015 0.037 0.002
13 : -0.048 0.010 -0.014 -0.017 0.018 0.019 0.014 0.016 0.028 0.025 0.026 0.033 0.010
12 : -0.047 0.009 -0.020 -0.009 0.017 0.019 0.014 0.010 0.023 0.031 0.022 0.038 0.013
11 : 0.021 0.012 -0.023 -0.016 0.015 0.013 0.010 0.020 0.032 0.029 0.026 0.033 0.013
10 : 0.023 0.011 -0.021 -0.008 0.017 0.011 0.007 0.017 0.031 0.026 0.025 0.037 0.027
9 : 0.031 0.011 -0.020 -0.007 0.016 0.014 0.015 0.020 0.032 0.025 0.034 0.031 0.021
8 : 0.013 0.007 -0.010 -0.009 0.014 0.015 0.017 0.022 0.033 0.026 0.025 0.030 0.026
7 : -0.007 0.006 -0.015 -0.004 0.017 0.014 0.017 0.020 0.026 0.027 0.023 0.025 0.018
6 : -0.009 0.008 -0.016 -0.006 0.019 0.027 -0.013 0.022 0.027 0.025 0.019 0.031 0.016
5 : -0.018 0.009 -0.023 -0.008 0.017 0.014 0.010 0.023 0.025 0.023 0.023 0.034 0.019
4 : 0.002 0.010 -0.017 -0.004 0.017 0.012 0.018 0.022 0.024 0.022 0.024 0.028 0.019
3 : 0.007 0.007 -0.016 -0.008 0.017 0.013 0.016 0.023 0.030 0.024 0.021 0.031 0.006
2 : 0.004 0.006 -0.020 -0.007 0.013 0.014 0.018 0.022 0.031 0.022 0.024 0.024 0.005
1 : 0.006 0.007 -0.017 -0.006 0.011 0.015 0.016 0.017 0.026 0.025 0.020 0.022 0.007
0 : 0.009 0.014 -0.006 -0.008 0.019 0.017 0.014 0.013 0.040 0.027 0.027 0.021 0.008
LHRS Detector High Voltage and Current
S0
A B
Set HV (V) -1225 -1125
Read HV (V) -1227 -1126
I (uA) -305 -524
S2m
1L 2L 3L 4L 5L 6L 7L 8L 9L 10L 11L 12L 13L 14L 15L 16L
Set HV (V) -1540 -1490 -1775 -1730 -1685 -1620 -1700 -1655 -1705 -1780 -1775 -1735 -1695 -1800 -1560 -1450
Read HV (V) -1540 -1491 -1776 -1730 -1683 -1622 -1700 -1656 -1706 -1780 -1776 -1737 -1697 -1802 -1562 -1451
I (uA) -584 -565 -675 -657 -641 -617 -643 -630 -646 -674 -675 -660 -643 -685 -592 -550
1R 2R 3R 4R 5R 6R 7R 8R 9R 10R 11R 12R 13R 14R 15R 16R
Set HV (V) -1515 -1660 -1805 -1710 -1770 -1775 -1820 -1895 -1905 -1845 -1815 -1550 -1590 -1735 -1790 -1670
Read HV (V) -1516 -1662 -1805 -1711 -1771 -1776 -1821 -1896 -1907 -1847 -1816 -1551 -1591 -1736 -1791 -1671
I (uA) -574 -631 -688 -654 -674 -675 -689 -721 -733 -700 -688 -587 -603 -658 -681 -634
Cherenkov
1 2 3 4 5 6 7 8 9 10
Set HV (V) -1155 -1000 -1125 -995 -1025 -1120 -935 -965 -985 -1155
Read HV (V) -1152 -1001 -1126 -995 -1025 -1120 -936 -965 -986 -1157
I (uA) -390 -319 -392 -332 -338 -373 -309 -307 -319 -397
PRL1
1L 2L 3L 4L 5L 6L 7L 8L 9L 10L 11L 12L 13L 14L 15L 16L 17L
Set HV (V) -729 -669 -754 -759 -645 -729 -871 -831 -689 -663 -722 -669 -736 -750 -630 -735 -767
Read HV (V) -730 -670 -754 -760 -646 -730 -873 -832 -690 -664 -723 -669 -737 -751 -630 -735 -768
I (uA) -173 -159 -180 -181 -154 -173 -207 -198 -164 -157 -172 -159 -176 -179 -150 -175 -182
1R 2R 3R 4R 5R 6R 7R 8R 9R 10R 11R 12R 13R 14R 15R 16R 17R
Set HV (V) -678 -672 -734 -1058 -851 -906 -707 -898 -741 -761 -621 -750 -669 -667 -716 -646 -713
Read HV (V) -679 -672 -734 -1059 -851 -907 -708 -898 -742 -762 -622 -750 -670 -668 -716 -648 -713
I (uA) -167 -165 -166 -228 -207 -212 -174 -219 -180 -186 -151 -183 -162 -162 -175 -157 -174
PRL2
18L 19L 20L 21L 22L 23L 24L 25L 26L 27L 28L 29L 30L 31L 32L 33L 34L
Set HV (V) -713 -733 -654 -711 -659 -739 -690 -706 -682 -628 -681 -654 -605 -647 -661 -703 -759
Read HV (V) -714 -733 -654 -712 -660 -740 -691 -707 -683 -629 -681 -655 -605 -647 -662 -704 -760
I (uA) -169 -175 -156 -170 -157 -175 -164 -168 -163 -150 -162 -156 -144 -154 -158 -167 -181
18R 19R 20R 21R 22R 23R 24R 25R 26R 27R 28R 29R 30R 31R 32R 33R 34R
Set HV (V) -649 -643 -660 -612 -576 -716 -652 -788 -729 -692 -827 -824 -654 -712 -789 -741 -714
Read HV (V) -649 -645 -660 -612 -578 -717 -653 -789 -730 -694 -828 -825 -655 -713 -790 -742 -715
I (uA) -155 -153 -158 -146 -138 -171 -155 -189 -174 -165 -197 -197 -161 -172 -190 -173 -169
VDC
1 2
Set HV (V) -3500 -3500
Read HV (V) -3499 -3500
I (uA) -0 -0
Straw Chamber
1 2 3 4 5 6
Set HV (V) 1800 1800 1800 1800 1800 1800
Read HV (V) 1801 1802 1802 1801 1802 1801
I (uA) 2 2 4 2 2 2