Difference between revisions of "Cc readout benchtest coda runlog"
From solidwiki
| Line 1,127: | Line 1,127: | ||
Run 2357 => 850 V + LED background (Two LED 100 khz/pixel) | Run 2357 => 850 V + LED background (Two LED 100 khz/pixel) | ||
Run 2359 => 850 V + LED background (Two LED 100 khz/pixel) | Run 2359 => 850 V + LED background (Two LED 100 khz/pixel) | ||
| − | + | Run 2360 => 850 V + LED background (Two LED 100 khz/pixel) | |
Revision as of 11:27, 12 August 2021
HV 98fc_850V
all threshold 230, all gain 64
LED 4.4V 9.38ns 10Hz
ch 16 is trigger
run note
67 PMT1,2,3
69 PMT1,2,3 change SSP_RICH_W_WIDTH from 400 to 2000
70 PMT4,5,6
72 PMT4,5,6 change SSP_RICH_W_WIDTH from 2000 to 400
73 PMT7,8,9
74 PMT10,11,12
75 PMT13,14,15
76 PMT1,2,3 LED change from 4.4V to 3.5V
77 PMT1,2,3 LED change to 4.0V
78 PMT1,2,3 LED change to 4.3V
80 PMT1,2,3 LED change to 5.0V
81 PMT1,2,3 LED change to 4.4V 15k events
82 PMT1,2,3 LED change to 4.4V 33k events
84 PMT1,2,3 change from ssp.cnf_thr230_gain64 to ssp.cnf_thrHV98fC850V_gainmap
86 PMT1,2,3 change from small to big LV cable
87 PMT1,2,3
88 PMT1,2,3
91 PMT1,2,3 add grounding wire
92 PMT7,2,3
94 PMT1,2,3 FADC250_CH_DAC from 500 to 600 for quad of PMT2,3
95 PMT1,2,3 FADC250_CH_DAC from 600 to 400 for quad of PMT2,3
98 PMT1,2,3 FADC250_CH_DAC from 500 to 300 for quad of PMT1
100 PMT1,2,3 FADC250_CH_DAC from 400 to 1000 for quad of PMT2,3
104 PMT1,2,3 FADC250_CH_DAC from 400 to 1000 for quad of PMT2,3
106 PMT1,2,3
131 PMT1,2,3 moved from ESB to testlab, FADC250_CH_DAC quad 500 and sum 3000, use small LV cable with ground cable, board 7 and fiber 4 has no LV
132 PMT1,2,3 28k events
133 PMT1,2,3 use small LV cable without ground cable
134 PMT1,2,3 use small LV cable with ground cable
139 PMT1,2,3 LED change to 4.42V, use small LV cable with ground cable
140 PMT1,2,3 LED change to 4.45V, use small LV cable with ground cable
141 PMT1,2,3 LED change to 4.48V, use small LV cable with ground cable
142 PMT1,2,3 LED change to 4.52V, use small LV cable with ground cable
143 PMT1,2,3 LED change to 4.56V, use small LV cable with ground cable
144 PMT1,2,3 LED change to 4.60V, use small LV cable with ground cable
145 PMT1,2,3 LED change to 4.65V, use small LV cable with ground cable
147 PMT1,2,3 No LED, use small LV cable with ground cable
148 PMT1,2,3 No LED, HV changed from "HV98fc-850V" to "HV147fc-900V"
149 PMT1,2,3 No LED, Rate 100 Hz (interval 10 ms), HV changed from "HV98fc-850V" to "HV147fc-900V"
150 PMT1,2,3 No LED, Rate 1000 Hz (interval 0.10 ms), HV changed from "HV98fc-850V" to "HV147fc-900V"
151 PMT1,2,3 No LED, Rate 10 KHz (interval 0.10 ms), HV changed from "HV98fc-850V" to "HV147fc-900V"
152 PMT1,2,3 LED 4.4 V , Rate 10 Hz (interval 100 ms), HV changed from "HV98fc-850V" to "HV147fc-900V"
153 5 FADC board JUNK LED 4.4 V , PMT HV "HV147fc-900V"
154 5 FADC board JUNK LED 4.4 V , PMT HV "HV147fc-950V"
155 5 FADC board JUNK (LED 4.4 V , PMT HV "HV147fc-1000V"
156 5 FADC board LED 4.4 V , Rate 10 Hz (interval 100 ms), Only one pixel PMT HV "HV147fc-850V"
200 5 FADC board LED 4.4 V , Rate 100 Hz (interval 10 ms), PMT HV "HV147fc-850V"
201 5 FADC board LED 4.4 V , Rate 1 kHz (interval 1 ms), PMT HV "HV147fc-850V"
202 5 FADC board LED 4.4 V , Rate 10 kHz (interval 0.10 ms), PMT HV "HV147fc-850V"
203 5 FADC board LED 4.4 V , Rate 10 Hz (interval 100 ms), PMT HV "HV147fc-900V"
204 5 FADC board LED 4.4 V , Rate 10 Hz (interval 100 ms), PMT HV "HV147fc-950V"
236 123 in slot4 LED 4.4 V , Rate 10 Hz (interval 100 ms), PMT HV "HV147fc-850V"
237 123 in slot5 LED 4.4 V , Rate 10 Hz (interval 100 ms), PMT HV "HV147fc-850V"
238 123 in slot6 LED 4.4 V , Rate 10 Hz (interval 100 ms), PMT HV "HV147fc-850V"
239 123 in slot7 LED 4.4 V , Rate 10 Hz (interval 100 ms), PMT HV "HV147fc-850V"
280 5 FADC Buffer level=5 block level=4 rate =10 Hz (interval 100 ms), PMT HV "HV147fc-850V"
281 5 FADC Buffer level=5 block level=4 rate =100 Hz (interval 10 ms), PMT HV "HV147fc-850V"
282 5 FADC Buffer level=5 block level=4 rate =1 kHz (interval 1 ms), PMT HV "HV147fc-850V"
283 5 FADC Buffer level=5 block level=4 rate =7.5 kHz (interval 100 us), PMT HV "HV147fc-850V"
284 5 FADC Buffer level=5 block level=4 rate =7.5 kHz (interval 10 us), PMT HV "HV147fc-850V"
318 4 FADC Buffer level=5 block level=4 rate =10 kHz + inverted signal (interval 100 us), HV "HV147fc-850V"
334 4 FADC Pedestal + 100 (Above thersh) rate =14.3 kHz + inverted signal (interval 70 us),HV "HV147fc-850V"
335 4 FADC Pedestal + 100 (Above thersh) rate =16.6 kHz + inverted signal (interval 60 us),HV "HV147fc-850V"
336 4 FADC Pedestal + 100 (Above thersh) rate =17.5 kHz + inverted signal (interval 50 us),HV "HV147fc-850V"
339 4 FADC Pedestal + 200 (Above thersh) rate =saturated + inverted signal (interval 10 us),HV "HV147fc-850V"
382 4 FADC Pedestal + 20 (Above thersh) ps=4 (9) + inverted signal Buffer=4,block=4 (interval 10 us),HV "HV147fc-850V"
384 4 FADC Pedestal + 20 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 100 ms),HV "HV147fc-850V"
385 4 FADC Pedestal + 20 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 10 ms),HV "HV147fc-850V"
386 4 FADC Pedestal + 20 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 1 ms), HV "HV147fc-850V"
387 4 FADC Pedestal + 20 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 100 us)HV "HV147fc-850V"
388 4 FADC Pedestal + 20 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 70 us),HV "HV147fc-850V"
389 4 FADC Pedestal + 20 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 60 us),HV "HV147fc-850V"
390 4 FADC Pedestal + 20 (Above thersh) ps=1 (2) + inverted signal Buffer=4,block=4 (interval 50 us),HV "HV147fc-850V"
392 4 FADC Pedestal + 20 (Above thersh) ps=2 (3) + inverted signal Buffer=4,block=4 (interval 20 us),HV "HV147fc-850V"
398 4 FADC Pedestal + 50 (Above thersh) ps=4 (9) + inverted signal Buffer=4,block=4 (interval 10 us),HV "HV147fc-850V"
399 4 FADC Pedestal + 50 (Above thersh) ps=5 (17)+ inverted signal Buffer=4,block=4 (interval 5 us), HV "HV147fc-850V"
400 4 FADC Pedestal + 50 (Above thersh) ps=6 (33) + inverted signal Buffer=4,block=4 (interval 3 us),HV "HV147fc-850V"
401 4 FADC Pedestal + 50 (Above thersh) ps=6 (33)+ inverted signal Buffer=4,block=4 (interval 2 us), HV "HV147fc-850V"
402 4 FADC Pedestal + 50 (Above thersh) ps=7 (65) + inverted signal Buffer=4,block=4 (interval 1 us),HV "HV147fc-850V"
403 4 FADC Pedestal + 80 (Above thersh) ps=7 (65)+ inverted signal Buffer=4,block=4 (interval 1 us), HV "HV147fc-850V"
404 4 FADC Pedestal + 100 (Above thersh) ps=7 (65)+ inverted signal Buffer=4,block=4 (interval 1 us),HV "HV147fc-850V"
405 4 FADC Pedestal + 150 (Above thersh) ps=7 (65)+ inverted signal Buffer=4,block=4 (interval 1 us),HV "HV147fc-850V"
406 4 FADC Pedestal + 200 (Above thersh) ps=7 (65)+ inverted signal Buffer=4,block=4 (interval 1 us),HV "HV147fc-850V"
407 4 FADC Pedestal + 50 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 1 ms), HV "HV147fc-1000V"
408 4 FADC Pedestal + 50 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 1 ms), HV "HV147fc-1050V"
409 4 FADC Pedestal + 50 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 1 ms), HV "HV147fc-950V"
410 4 FADC Pedestal + 50 (Above thersh) ps=0 (1) + inverted signal Buffer=4,block=4 (interval 1 ms), HV "HV147fc-900V"
===== LASER RUNS
=====PMT at asic 0, LV 5.35V, HV 900v
========"ssp850Vgainmap" = 40% of gain used in file "ssp.cnf_thrHV98fC850V_gainmap"=== TUNE =50%
569 FADC 200 ns + Laser 1MHz (ps=65 saturated) + coda rate (7 kHz) + wheel2+paper + ssp gain (40% of gain "ssp"
572 FADC 200 ns + Laser 500 kHz (ps=129) + coda rate (~4 kHz) + wheel2+paper + ssp gain (40% of gain "ssp"
573 FADC 200 ns + Laser 1MHz (ps=129 saturated) + coda rate (7 kHz) + tune 50%, wheel2+paper + ssp gain (40% of gain "ssp"
574 FADC 200 ns + Laser 1MHz (ps=257) + coda rate (~4 kHz) + wheel2+paper + ssp gain (40% of gain "ssp"
575 FADC 200 ns + Laser 200 kHz (ps=33) + coda rate (~6 kHz) +wheel2+paper + ssp gain (40% of gain "ssp"
576 FADC 200 ns + Laser 100 kHz (ps=17) + coda rate (~6 kHz) + wheel2+paper + ssp gain (40% of gain "ssp"
577 FADC 200 ns + Laser 100 kHz (ps=17) + coda rate (~6 kHz) + wheel3 + ssp gain (gain "ssp850Vgainmap"
610 FADC 200 ns + Laser 1Mz (ps=257) + LED at 2.3 V coda rate (~ 3.8kHz) + wheel2 + gain "sspLowergainmap"+ PED + TET 50
612 FADC 200 ns + Laser 1Mz (ps=257) + LED at 3 MHz+ (coda rate ~ 3.8kHz) + wheel2 + gain "sspLowergainmap" PED + TET 100
===== ONLY WHEEL 2 (WITHOUT PAPER IS TOO MUCH LIGHT AND CRASHED SSP DECODER (TDC ANALYSIS FROM RICH "mRICH_reco.c")====
613 FADC 200 ns + Laser 1Mz (ps=257) + 2 LED at 5MHz (coda rate ~ 3.8kHz) + wheel2 + (gain "sspLowergainmap" PED + TET 50
614 FADC 200 ns + Laser 1Mz (ps=513) + 2 LED at 5MHz (coda rate ~ 3.8kHz) + wheel2 + gain "sspLowergainmap" PED + TET 50
=============FOR 613 -614 SSP DECODER CRASHED=======================
622 FADC 200 ns + Laser 1Mz (ps=257) + 2 LED at 5MHz (coda rate ~ 3.8kHz) + wheel3 + gain "sspLowergainmap" PED + TET 50
623 FADC 200 ns + Laser 1Mz (ps=257) + 2 LED at 5MHz, coda rate ~ 3.8kHz) + wheel3 + gain "sspLowergainmap" PED + TET 50
624 FADC 200 ns + Laser 1Mz (ps=257) + 2 LED at 5MHz, coda rate ~ 3.8kHz)+ wheel2 + paper + gain "sspLowergainmap" PED + TET 50
625 FADC 200 ns + Laser 1Mz (ps=257) + 2 LED at 5MHz, coda rate ~ 3.8kHz + wheel2 + paper + gain "sspLowergainmap" PED + TET 50
626 FADC 200 ns trigger 1Mz (ps=257) + Only LED coda rate ~ 3.8kHz + No LASER + gain "sspLowergainmap" PED + TET 50
627 FADC 256 ns trigger 1Mz (ps=257) + Only LED (coda rate ~ 3.8kHz) + NO LASER + ssp gain (gain "sspLowergainmap" PED + TET 50
=============BELOW THIS RUNS TED = PED =0 IN "fadc250.cnf"==and FADC TIME WINDOW = 256ns =======
630 trigger (ps=257) + Only LED 2.15 V )at coda rate ~ 3.8kHz) + NO LASER + ssp gain (gain "sspLowergainmap"
632 trigger (ps=257) + LED 2.15 V (coda rate ~ 3.8kHz) + 1 MHz laser (wheel2+ paper) + ssp gain (gain "sspLowergainmap"
633 trigger (ps=257) + LED 2.15 V (coda rate ~ 3.8kHz) + 1 MHz laser (wheel3+ paper) + ssp gain (gain "sspLowergainmap"
634 trigger (ps=257) + LED 2.15 V )(coda rate ~ 3.8kHz) + 1 MHz laser (wheel3+ paper) + ssp gain (gain "sspLowergainmap"
635 trigger (ps=257) + LED 2.11 V )(coda rate ~ 3.8kHz) + LASER OFF + ssp gain (gain "sspLowergainmap"
637 trigger (ps=257) + LED 2.11 V (coda rate ~ 3.8kHz) + Laser wheel 2 + paper + ssp gain (gain "sspLowergainmap"
638 rigger (ps=257) + LED 2.11 V )(coda rate ~ 3.8kHz) + Laser wheel 3 + paper + ssp gain (gain "sspLowergainmap"
639 trigger (ps=257) + LED 2.09 V ) (ssp scaler 44 KHz) + Laser off + ssp gain (gain "sspLowergainmap"
640 trigger (ps=257) + LED 2.09 V ) (ssp scaler 44 KHz) + 1 MZ Laser wheel 2 + ssp gain (gain "sspLowergainmap"
641 trigger (ps=257) + LED 2.09 V )at (ssp scaler 44 KHz) + 1 MZ Laser wheel 3 + ssp gain (gain "sspLowergainmap"
642 trigger(ps=257) NO LED at (ssp scaler ?? KHz) + 1 MZ Laser wheel 3 + paper ssp gain (gain "sspLowergainmap" [comment signal is too weak)
643 trigger (ps=257) NO LED at (ssp scaler ?? KHz) + 1 MZ Laser wheel 3 NO PAPER ssp gain (gain "sspLowergainmap"
644 trigger 1Mz (ps=257) LED at 2.09 (ssp scaler ?? KHz) + 1 MZ Laser wheel 3 NO PAPER ssp gain (gain "sspLowergainmap" (FADCSSP MODE should not effect but check)
645 trigger 1Mz (ps=257) LED at 2.09 (ssp scaler ?? KHz) + 1 MZ Laser wheel 3 NO PAPER ssp gain (gain "sspLowergainmap"
646 trigger 1Mz (ps=257) LED at 2.10 (ssp scaler 68 KHz) + LASER OFF ssp gain (gain "sspLowergainmap"
647 trigger 1Mz (ps=257) LED at 2.10 (ssp scaler 68 KHz) +1 MZ Laser LASER Wheel 3 (no paper) ssp gain (gain spLowergainmap"
============== Study of flat background with masking first channel (saturation of number of hits)===============
650 trigger 1MHz (ps=257) LED 2.10 V, LASER OFF only first pixel enabled, rest masked, gain "sspLowergainmap"
651 trigger 1MHz (ps=257) LED 2.11 V, LASER OFF only first pixel enabled, rest masked, gain "sspLowergainmap"
652 trigger 1MHz (ps=257) LED 2.15 V, LASER OFF only first pixel enabled, rest masked, gain "sspLowergainmap"
653 trigger 1MHz (ps=257) LED 2.15 V, LASER OFF ALL CHANNEL ENABLED enabled, gain "sspLowergainmap"
654 trigger 1MHz (ps=257) LED 2.13 V, LASER OFF ALL CHANNEL ENABLED enabled, gain "sspLowergainmap"
655 trigger 1MHz (ps=257) LED 2.13 V, LASER OFF only first pixel enabled, rest masked, gain "sspLowergainmap"
656 trigger 1MHz (ps=257) LED 2.12 V, LASER OFF, ALL CHANNEL ENABLED enabled, gain "sspLowergainmap"
657 trigger 1MHz (ps=257) LED 2.12 V, LASER OFF, Only First CHANNEL ENABLED enabled, gain "sspLowergainmap"
658 trigger 1MHz (ps=257) LED 2.11 V, LASER OFF, Only First CHANNEL ENABLED enabled, rest masked, gain "sspLowergainmap"
659 trigger 1MHz (ps=257) LED 2.11 V, LASER OFF, ALL CHANNEL ENABLED enabled, gain "sspLowergainmap"
====CODA RUNS LED At 2.12 V ======ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (40% less than HV850 gain===========
Run 662 Trigger_rate = 1MHz, PS=257, LASER Wheel3, LED 2.12 V, gain "sspLowergainmap", PED + TET 00
==========From this point gain map "ssp.cnfgain64_th250" === uniform gain of 64 and threshold 250=================
Run 668 trigger rate = 10 kHz (ps = 3) + Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250)
Run 669 trigger rate = 1 MHz (ps = 257)+ Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250) [comment RICH decoder crashes)
Run 670 trigger rate = 1 MHz (ps = 257)+ Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250) [comment RICH decoder crashes)
Run 670 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250) [RICH_decoder Crash]
======== SSP time window test =======
Run 685 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250) SSP WINDOW = 200ns
Run 686 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250) SSP WINDOW = 300ns
Run 687 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_2 + LED OFF + (gain 64 Thresh 250) SSP WINDOW = 400ns
====Now Wheel 2 Only NO LED at different Laser frequency const SSP time ==400 ns =====
Run 687 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_2 + LED OFF () + TET = 0 , PED = 0 (gain 64 Thresh 250)
Run 688 trigger rate = 200 KHz (ps = 129) + Laser_Wheel_2 + LED OFF () + TET = 0 , PED = 0 (gain 64 Thresh 250)
====Now Wheel 3 Only NO LED at different Laser frequency const SSP time ==400 ns =====
Run 690 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_3 + LED OFF + gain 64 Thresh 250) (Don;t confuse with reverse order of run its TRUE)
Run 689 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_3 + LED OFF (gain 64 Thresh 250)
Run 691 trigger rate = 200 KHz (ps =65) + Laser_Wheel_3 + LED OFF (gain 64 Thresh 250)
Run 693 trigger rate = 100 KHz (ps = 33) + Laser_Wheel_3 + LED OFF (gain 64 Thresh 250)
Run 694 trigger rate = 300 KHz (ps = 129) + Laser_Wheel_3 + LED OFF (gain 64 Thresh 250)
Run 696 trigger rate = 700 KHz (ps = 257) + Laser_Wheel_3 + LED OFF (gain 64 Thresh 250)
=====WHEEL 2 + PAPER + LOWER GAIN MAP "ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser"
Run 705 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_2_PAPER + LED OFF () + TET = 0 , PED = 0 (low gain )
Run 706 trigger rate = 700 KHz (ps =257) + Laser_Wheel_2_PAPER + LED OFF () + TET = 0 , PED = 0 (low gain )
Run 707 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_2_PAPER + LED OFF () + TET = 0 , PED = 0 (low gain )
Run 708 trigger rate = 300 KHz (ps = 129) + Laser_Wheel_2_PAPER + LED OFF () + TET = 0 , PED = 0 (low gain )
Run 709 trigger rate = 200 KHz (ps = 65) + Laser_Wheel_2_PAPER + LED OFF () + TET = 0 , PED = 0 (low gain )
Run 710 trigger rate = 100 KHz (ps = 33) + Laser_Wheel_2_PAPER + LED OFF () + TET = 0 , PED = 0 (low gain )
==== WHEEL 3 + PAPER + Uniform gain map "
Run 712 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_3_PAPER + LED OFF () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 713 trigger rate = 700 KHz (ps = 257) + Laser_Wheel_3_PAPER + LED OFF () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 716 trigger rate = 500 KHz (ps = 129) + Laser_Wheel_3_PAPER + LED OFF () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 717 trigger rate = 300 KHz (ps = 129) + Laser_Wheel_3_PAPER + LED OFF () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 718 trigger rate = 200 KHz (ps = 65) + Laser_Wheel_3_PAPER + LED OFF () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 719 trigger rate = 100 KHz (ps = 33) + Laser_Wheel_3_PAPER + LED OFF () + TET = 0 , PED = 0 (uniform 64 gain map)
==================LED AT 2.12 V ONLY ================
Run 720 coda rate = 300 KHz (ps = 257) + Laser0 OFF + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 722 SSP width 200 ns + Laser0 OFF + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
===============Adding Wheel 3 + + PAPER at different frequencies ===========
Run 721 coda rate = 3.8 KHz (ps = 257) + Laser 1MZ WH3+ PAPER + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 723 coda rate = 2. KHz (ps = 257) + Laser 500 kHZ WH3+ PAPER + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 724 coda rate = 3. KHz (ps = 65) + Laser 200 kMZ WH3+ PAPER + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 725 coda rate = 1. KHz (ps = 65) + Laser 100 kHZ WH3+ PAPER + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
Run 726 coda rate = 1. KHz (ps = 257) + Laser 700 kHZ WH3+ PAPER + LED 2.12 V () + TET = 0 , PED = 0 (uniform 64 gain map)
===========ADDING WHEEL 2 + PAPER AND LOWER GAIN "ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser"============
Run 728 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.12 V + (low gain )
Run 729 trigger rate(2.5)700 kHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.12 V ) +(low gain )
Run 730 trigger rate(2) 500 kHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.12 V + (low gain )
Run 731 trigger rate(0.75)200 kHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.12 V + (low gain )
Run 733 trigger rate(0.30 100 kHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.12 V (low gain )
=====ONLY LED AT 2.15 ========AND LOWER GAIN "ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser"================
Run 734 trigger rate = 400Hz (ps = 257) LASER OFF + LED (2.15 V (low gain )
Run 735 trigger rate = 4 KHz (ps = 257) LASER 1MHZ WHEEL 2 PAPER + LED 2.15 V + (low gain )
Run 736 trigger rate = 2.5 KHz (ps = 257) LASER 700 KHZ WHEEL 2 PAPER + LED 2.15 V+ (low gain )
Run 737 trigger rate = 2 KHz (ps = 257) LASER 500 KHZ WHEEL 2 PAPER + LED 2.15 V (low gain )
Run 738 trigger rate = 1.1 KHz (ps = 257) LASER 300 KHZ WHEEL 2 PAPER + LED 2.15 V + (low gain )
Run 739 trigger rate = 0.75 KHz (ps = 257) LASER 200 KHZ WHEEL 2 PAPER + LED 2.15 V + (low gain )
Run 740 trigger rate = 0.4 KHz (ps = 257) LASER 100 KHZ WHEEL 2 PAPER + LED (.15 V + (low gain )
====== WHEEL 3 + PAPER + LED 2.15 V Uniform gain map "ssp.cnfgain64_th250"
Run 742 trigger rate = 4 KHz (ps = 257) LASER 1000 KHZ WHEEL 3 PAPER + LED 2.15 V +(gain 64 )
Run 743 trigger rate = 2.5 KHz (ps = 257) LASER 700 KHZ WHEEL 3 PAPER + LED 2.15 V + (gain 64 )
Run 744 trigger rate = 2.0 KHz (ps = 257) LASER 500 KHZ WHEEL 3 PAPER + LED 2.15 V + (gain 64 )
Run 745 trigger rate = 1.2 KHz (ps = 257) LASER 300 KHZ WHEEL 3 PAPER + LED 2.15 V + (gain 64 )
Run 746 trigger rate = 0.75 KHz (ps = 257) LASER 200 KHZ WHEEL 3 PAPER + LED 2.15 V + (gain 64 )
Run 747 trigger rate = 0.35 KHz (ps = 257) LASER 100 KHZ WHEEL 3 PAPER + LED 2.15 V + (gain 64 )
=============LED 2.09 V Wheel 3 + PAPER Uniform gain map ========
Run 750 trigger rate = 4 KHz (ps = 257) LASER 1000 KHZ WHEEL 3 PAPER + LED 2.09 V + (gain 64 )
Run 751 trigger rate = 2.5 KHz (ps = 257) LASER 700 KHZ WHEEL 3 PAPER + LED 2.09 V +(gain 64 )
Run 752 trigger rate = 2.0 KHz (ps = 257) LASER 500 KHZ WHEEL 3 PAPER + LED 2.09 V + (gain 64 )
Run 753 trigger rate = 1.2 KHz (ps = 257) LASER 300 KHZ WHEEL 3 PAPER + LED 2.09 V + (gain 64 )
Run 754 trigger rate = 0.75 KHz (ps = 257) LASER 200 KHZ WHEEL 3 PAPER + LED 2.09 V + (gain 64 )
Run 755 trigger rate = 0.35 KHz (ps = 257) LASER 100 KHZ WHEEL 3 PAPER + LED 2.09 V + (gain 64 )
=============LED 2.09 V Wheel 2 + PAPER Uniform gain map ========
Run 749 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.09 V + (uniform 64 )
Run 756 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.09 V + (low gain 50% of HAOO37 )
COMMENT: Both uniform gain 64 and 50% of HA0037 saturates FADC
Run 757 trigger rate = 1 MHz (ps = 257) + Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain 40% of HA0037)
Run 758 trigger rate(2.5) 700 kHz (ps = 257)+ Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain 40% of HA0037)
Run 759 trigger rate(2) = 500 kHz (ps = 257)+ Laser_Wheel_2_PAPER + LED 2.09 V) + T (low gain 40% of HA0037 )
Run 760 trigger rate(1.2) 300 kHz (ps = 257) +Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain 40% of HA0037)
Run 761 trigger rate(0.75) 200 kHz (ps = 257)+ Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain 40% of HA0037)
Run 762 trigger rate(0.30) 100 kHz (ps = 257)+ Laser_Wheel_2_PAPER + LED 2.09 V + (low gain40% of HA0037 )
Run 763 trigger rate(0.30) =100 kHz (ps = 257)+Laser_Wheel_2_PAPER + LED 209 V + T(low gain40% of HA0037 ) (??)
======LED 2.09 V======== Gain Map Similar to 2.12 and 2.15 LED Volt 764 -769)
Run 764 trigger rate(3.8 KHz(ps = 257) 1 MHz + Laser_Wheel_2_PAPER + LED 2.09 V) (low gain)
Run 765 trigger rate(2.5KHz) (ps = 257) 700 kHz + Laser_Wheel_2_PAPER + LED 2.09 V) +(low gain)
Run 766 trigger rate(2KHz)(ps = 257) 500 kHz + Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain)
Run 767 trigger rate(1.2 KHz)(ps = 257) 300 kHz + Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain)
Run 768 trigger rate(0.75 KHz)(ps = 257)200 kHz + Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain )
Run 769 trigger rate(0.30 KHz)(ps = 257) 100 kHz + Laser_Wheel_2_PAPER + LED 2.09 V) + (low gain)
=====ONLY LED AT 2.09 V======
Run 763 trigger rate (0.30 KHz) (ps =257) LASER OFF LED 2.09 V low gain40% of HA0037)
====== Wheel 3 ONLY ===2.09 V ====
Run 770 trigger rate = 0 MHz (ps = 257) + Laser OFF + LED (2.09 V ) + (gain 64)
Run 771 trigger rate(3.8) = 1000 kHz (ps = 257) + Laser Wheel 3 (ONLY) + LED (2.09 V) + (gain 64)
Run 777 trigger rate(3.8) = 1000 kHz (ps = 257) + Laser Wheel 3 (ONLY) + LED (2.09 V) + (gain 64)
Run 772 trigger rate(2.5) ps = 257) 700 kHz + Laser Wheel 3 (ONLY) + LED 2.09 V) + (gain 64)
Run 773 trigger rate (2) (ps = 257) 500 kHz + Laser Wheel 3 (ONLY) + LED 2.09 V) + (gain 64)
Run 774 trigger rate(1.2) (ps = 257) 300 kHz + Laser Wheel 3 (ONLY) + LED 2.09 V) + (gain 64)
Run 775 trigger rate (0.75)(ps = 257) 200 kHz +Laser Wheel 3 (ONLY) + LED 2.09 V) +(gain 64)
Run 776 trigger rate (0.30 (ps = 257) 100 kHz +Laser Wheel 3 (ONLY) + LED 2.09 V) + (gain 64)
====== Wheel 3 ONLY ===2.15 V ====
Run 781 trigger rate = 0 MHz (ps = 257) + Laser OFF + LED (2.15 V ) + TET = 0=PED (gain 64)
Run 782 trigger rate(3.8) 1000 kHz (ps = 257) + Laser Wheel 3 (ONLY) + LED (2.15 V ) + (gain 64)
Run 783 trigger rate(3.8) 700 kHz (ps = 257) + Laser Wheel 3 (ONLY) + LED 2.15 V) + (gain 64)
Run 784 trigger rate(2.5) ps= 257) 500 kHz + Laser Wheel 3 (ONLY) + LED 2.15 V) + (gain 64)
Run 785 trigger rate (2) (ps= 257) 300 kHz + Laser Wheel 3 (ONLY) + LED 2.15 V) + (gain 64)
Run 786 trigger rate(1.2) (ps= 257) 200 kHz + Laser Wheel 3 (ONLY) + LED 2.15 V) + (gain 64)
Run 787 trigger rate (0.75)(ps= 257)100 kHz + Laser Wheel 3 (ONLY) + LED 2.15 V) + (gain 64)
=================TEST OF GAIN MAP ==LED OFF REFERENCE RUNS WHEEL 3 ONLY ====
gain >> ssp.cnf_thrHV98fC850V_gainmap => Wheel 3 ONLY ==LED
=============Uniform Gain 64================
Run 788 1000 KHz ssp.cnf_thr230_gain64
Run 789 700 KHz ssp.cnf_thr230_gain64
Run 790 500 KHz ssp.cnf_thr230_gain64
Run 791 300 KHz ssp.cnf_thr230_gain64
Run 792 200 KHz ssp.cnf_thr230_gain64
Run 793 100 KHz ssp.cnf_thr230_gain64
=============gain main 850HV= WHEEL 3 ONLY ===============
Run 797 1000 KHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 798 500 kHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 803 200 kHz (??) may be interpurted in between gain >> ssp.cnf_thrHV98fC850V_gainmap
=============For wheel 3 which is some factor times HA0037 gain WHEEL 3 ONLY ================
Run 795 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 796 500 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 801 200 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 802 100 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
=============0.40 times HA0037 gain WHEEL 3 ONLY ================
Run 799 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 800 500 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
=========NOW WHEEL 3 + PAPER==[COMMENT RUNS FROM 805-834 HAVE SOME ISSUES SO RETAKEN ]=========
=============Uniform Gain 64==[COMMENT == This is very low for wheel 3 + PAPER]==============
Run 805 1000 KHz ssp.cnf_thr230_gain64
Run 806 700 KHz ssp.cnf_thr230_gain64
Run 807 500 KHz ssp.cnf_thr230_gain64
Run 808 300 KHz ssp.cnf_thr230_gain64
Run 809 200 KHz ssp.cnf_thr230_gain64
Run 810 100 KHz ssp.cnf_thr230_gain64
=============PROBLEMATIC RUNS =========
Run 811 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 812 700 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 813 500 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 814 200 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
Run 815 100 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3
=============PROBLEMATIC RUNS =========
Run 816 1000 KHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 817 500 kHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 818 200 KHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 819 100 kHz gain >> ssp.cnf_thrHV98fC850V_gainmap
=============PROBLEMATIC RUNS =========
Run 820 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 821 500 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
================END OF WHEEL 3================
=============WHEEL 2 + PAPER REFERENCE RUNS ==NO LED ===PROBLEMATIC RUNS ====================
Run 822 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 823 700 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 824 500 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 825 300 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 826 100 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
=============PROBLEMATIC RUNS =========
Run 829 500 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 830 300 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 831 200 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 832 100 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 833 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 834 700 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
=============================END OF PROBLEMATIC RUNS -==================
=========== NO LED RUNS WITH PAPERS FOR REFERENCE = ps=257 TED= PED=0 ========
===========WHEEL 2 + PAPER ==GAIN 40% OF GAIN HA0037==_"2ND FOUR LINES"=========
Run 835 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 836 700 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 837 500 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 838 200 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
Run 839 100 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (2nd four lines 40% of HA0037)
===========WHEEL 2 + PAPER ==GAIN 40% OF 850HV ="FIRST FOUR LINES"
Run 840 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 841 700 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 842 500 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 843 300 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 844 200 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
Run 845 100 KHz ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser (first four lines)
=======WHEEL 3 + PAPER LED OFF ======
Run 846 1000 KHz ssp.cnf_thr230_gain64
Run 847 700 KHz ssp.cnf_thr230_gain64
Run 848 500 KHz ssp.cnf_thr230_gain64
Run 849 300 KHz ssp.cnf_thr230_gain64
Run 850 200 KHz ssp.cnf_thr230_gain64
Run 851 100 KHz ssp.cnf_thr230_gain64
Run 852 1000 KHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 853 700 kHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 854 500 KHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 855 300 kHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 856 200 KHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 857 100 kHz gain >> ssp.cnf_thrHV98fC850V_gainmap
Run 858 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3 =(1X GAIN OF HA0037)
Run 859 700 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3 =(1X GAIN OF HA0037)
Run 860 500 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1X GAIN OF HA0037)
Run 861 300 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1X GAIN OF HA0037)
Run 862 200 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1X GAIN OF HA0037)
Run 866 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3 =(2.5X GAIN OF HA0037)
Run 867 700 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3 =(2.5X GAIN OF HA0037)
Run 868 500 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(2.5X GAIN OF HA0037)
Run 869 100 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(2.5X GAIN OF HA0037)
Run 870 1000 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1.5X GAIN OF HA0037)
Run 871 700 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1.5X GAIN OF HA0037)
Run 872 500 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1.5X GAIN OF HA0037)
Run 873 200 KHz ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1.5X GAIN OF HA0037)
=======WHEEL 2 + PAPER WITH GAIN ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1.5X GAIN OF HA0037)=====
Run 874 1000 KHz [COMMENT FADC SATURATES] ssp.cnf_thrHV98fC850V_gainmap_gainHA0037_ForLaserWh3=(1.5X GAIN OF HA0037)
======== Some addition runs with LED ON=========
Run 875 LED 2.12 V + WHEEL 3 + PAPER + 1 MHZ + GAIN 64
Run 876 LED 2.12 V + WHEEL 3 + PAPER + 500 KHZ + GAIN 64
Run 877 LED 2.12 V + WHEEL 2 + PAPER + 1 MHZ + LOW GAIN (40% OF 850HV FIRST 4 LINES )
Run 878 (??) LED 2.12 V + WHEEL 2 + PAPER + 500 KHZ + LOW GAIN (40% OF 850HV FIRST 4 LINES )
Run 885 (500 KHZ) LED 2.15 V + WHEEL 3 + PAPER + 500 KHZ + GAIN 64
Run 884 (1MHZ) LED 2.15 V + WHEEL 3 + PAPER + 1 MHZ + GAIN 64
Run 882 LED 2.15 V + WHEEL 2 + PAPER + 1 MHZ + LOW GAIN (40% OF 850HV FIRST 4 LINES )
Run 883 LED 2.15 V + WHEEL 2 + PAPER + 500 KHZ + LOW GAIN (40% OF 850HV FIRST 4 LINES )
==================SIMPlE SUM BOARD RUNS====================
WHEEL 2 + PAPER + LED OFF + HV 900 ===
RUN 895 1MHZ + wheel 2 + paper + LED OFF + HV 900
RUN 900 500 KHZ + wheel 2 + paper + LED OFF + HV 900
RUN 901 200 KHZ + wheel 2 + paper + LED OFF + HV 900
RUN 902 10 KHZ + wheel 2 + paper + LED OFF + HV 900
WHEEL 2 + PAPER + LED 2.15 v + HV 900 ===
RUN 903 1MHZ + wheel 2 + paper + LED 2.15 V + HV 900
RUN 904 1MHZ + wheel 2 + paper + LED 2.15 V + HV 900 (REPEATED)
RUN 905 500 KHZ + wheel 2 + paper + LED 2.15 V + HV 900
RUN 906 200 KHZ + wheel 2 + paper + LED 2.15 V + HV 900
RUN 907 100 KHZ + wheel 2 + paper + LED 2.15 V + HV 900
WHEEL 2 + PAPER + LED 2.09 v + HV 900 ===
RUN 908 1MHZ + wheel 2 + paper + LED 2.09 V + HV 900
RUN 909 500 KHZ + wheel 2 + paper + LED 2.09 V + HV 900
RUN 910 200 KHZ + wheel 2 + paper + LED 2.09 V + HV 900
RUN 911 100 KHZ + wheel 2 + paper + LED 2.09 V + HV 900
===============WHEEL 3 NO PAPER LED OFF =======
RUN 912 1MHZ + wheel + NO paper + LED OFF + HV 900
RUN 913 500 KHZ + wheel 3 NO + paper + LED OFF + HV 900
RUN 914 200 KHZ + wheel 3 NO paper + LED OFF + HV 900
RUN 915 100 KHZ + wheel 3 NO+ paper + LED OFF + HV 900
===============WHEEL 3 NO PAPER LED OFF =======
RUN 916 1MHZ + wheel + NO paper + LED OFF + HV 1000
RUN 917 500 KHZ + wheel 3 NO + paper + LED OFF + HV 1000
RUN 918 200 KHZ + wheel 3 NO paper + LED OFF + HV 1000
RUN 919 100 KHZ + wheel 3 NO+ paper + LED OFF + HV 1000
===============WHEEL 3 NO PAPER LED 2.09 =======
RUN 921 1MHZ + wheel + NO paper + LED 2.09 + HV 1000
RUN 922 500 KHZ + wheel 3 NO + paper + LED 2.09 + HV 1000
RUN 923 200 KHZ + wheel 3 NO paper + LED 2.09 + HV 1000
RUN 924 100 KHZ + wheel 3 NO+ paper + LED 2.09 + HV 1000
===============WHEEL 3 NO PAPER LED 2.15 =======
RUN 925 1MHZ + wheel + NO paper + LED 2.15 + HV 1000
RUN 926 500 KHZ + wheel 3 NO + paper + LED 2.15 + HV 1000
RUN 927 200 KHZ + wheel 3 NO paper + LED 2.15 + HV 1000
RUN 928 100 KHZ + wheel 3 NO+ paper + LED 2.15 + HV 1000
===============WHEEL 3 NO PAPER LED 2.15 =======
RUN 929 1MHZ + wheel + NO paper + LED 2.15 + HV 900
RUN 930 500 KHZ + wheel 3 NO + paper + LED 2.15 + HV 900
RUN 931 200 KHZ + wheel 3 NO paper + LED 2.15 + HV 900
RUN 932 100 KHZ + wheel 3 NO+ paper + LED 2.15 + HV 900
===============WHEEL 3 NO PAPER LED 2.09 =======
RUN 933 1MHZ + wheel + NO paper + LED 2.09 + HV 900
RUN 934 500 KHZ + wheel 3 NO + paper + LED 2.09 + HV 900
RUN 935 200 KHZ + wheel 3 NO paper + LED 2.09 + HV 900
RUN 936 100 KHZ + wheel 3 NO+ paper + LED 2.09 + HV 900
===PEDESTAL RUNS FOR SIMPLE SUM BOARD ===
RUN 949 >> NO LED + NO LASER (HV 1000)
RUN 950 >> NO LED + NO LASER (HV 1000)
RUN 955 >> LED 2.09 + NO LASER (HV 900) psetting = 2
RUN 956 >> LED OFF + NO LASER (HV 900) psetting = 2
////////// MAROC SUM BOARD /////////////// Prescale used 257
RUN 959 LED 2.12 V LASER OFF + Uniform gain64_250 + only pixel 1 on [HV 900 V]
RUN 960 LED 2.12 V LASER OFF + Uniform gain64_250 + only pixel 1 on [HV 1000 V]
RUN 961 LED 2.12 V LASER OFF + Uniform gain64_250 + only pixel 1 on [HV 900 V]
RUN 962 LED 2.15 V LASER OFF + Uniform gain64_250 + only pixel 1 on [HV 900 V]
RUN 963 LED 2.09 V LASER OFF + Uniform gain64_250 + only pixel 1 on [HV 900 V]
RUN 965 LED 2.09 V LASER 500 + Uniform gain64_250 + only pixel 1 on [HV 900 V] [ps 257]
RUN 966 LED 2.09 V LASER 1000 + Uniform gain64_250 + only pixel 1 on [HV 900 V] [ps 257]
RUN 967 LED 2.12 V LASER 1000 + Uniform gain64_250 + only pixel 1 on [HV 900 V] [ps 257]
RUN 968 LED 2.15 V LASER 1000 + Uniform gain64_250 + only pixel 1 on [HV 900 V] [ps 257]
/// ALL PIXELS SIMPLE SUM BOARD ////
RUN 969 LED 2.15 V LASER OFF + Uniform gain64_250 + ALL PIXELS ON [HV 900 V]
RUN 970 LED 2.15 V LASER 1MHz (Wheel 2 + paper) + Uniform gain64_250 + ALL PIXELS ON [HV 900 V]
RUN 971 LED 2.15 V LASER 500 KHz (Wheel 2 + paper) + Uniform gain64_250 + ALL PIXELS ON [HV 900 V]
RUN 972 LED 2.15 V LASER 100 KHz (Wheel 2 + paper) + Uniform gain64_250 + ALL PIXELS ON [HV 900 V]
RUN 973 LED 2.15 V LASER 1MHz (Wheel 3 + paper) + Uniform gain64_250 + ALL PIXELS ON [HV 900 V]
Jan 14: 18:33 => Run 1005 LED 2.15 Laser 1 Mhz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:34 => Run 1006 LED 2.15 Laser 500 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:35 => Run 1007 LED 2.15 Laser 100 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:35 => Run 1008 LED OFF Laser 1000 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:36 => Run 1009 LED OFF Laser 500 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:40 => Run 1010 LED OFF Laser 100 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:42 => Run 1011 LED OFF Laser 1000 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:43 => Run 1012 LED OFF Laser 500 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:45 => Run 1013 LED OFF Laser 100 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:47 => Run 1014 LED 2.15 Laser 1 Mhz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:48 => Run 1015 LED 2.15 Laser 500 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:50 => Run 1016 LED 2.15 Laser 100 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:52 => Run 1017 LED 2.12 Laser 1 Mhz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:53 => Run 1018 LED 2.12 Laser 500 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:54 => Run 1019 LED 2.12 Laser 100 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:56 => Run 1020 LED 2.12 Laser 1 Mhz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:57 => Run 1021 LED 2.12 Laser 500 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 18:58 => Run 1022 LED 2.12 Laser 100 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:01 => Run 1023 LED 2.09 Laser 1 Mhz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:04 => Run 1024 LED 2.09 Laser 500 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:05 => Run 1025 LED 2.09 Laser 100 khz (wh2 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:06 => Run 1026 LED 2.09 Laser 1 Mhz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:07 => Run 1027 LED 2.09 Laser 500 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:08 => Run 1028 LED 2.09 Laser 100 khz (wh3 p) + ALL PIXELS ON [HV 900 V]
Jan 14: 19:11: => Run 1029 LED 2.09 Laser OFF + ALL PIXELS ON [HV 900 V]
Jan 14: 19:13: => Run 1030 LED 2.12 Laser OFF + ALL PIXELS ON [HV 900 V]
Jan 14: 19:15: => Run 1031 LED 2.15 Laser OFF + ALL PIXELS ON [HV 900 V]
Jan 14: 20:29: => Run 1032 LED OFF Laser wheel 3 1MHZ + ALL PIXELS ON [HV 900 V]
Jan 14: 20:31: => Run 1033 LED OFF Laser wheel 3 500 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:32: => Run 1034 LED OFF Laser wheel 3 100 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:34: => Run 1035 LED 2.15 Laser wheel 3 1MHZ + ALL PIXELS ON [HV 900 V]
Jan 14: 20:35: => Run 1036 LED 2.15 Laser wheel 3 500 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:36: => Run 1037 LED 2.15 Laser wheel 3 100 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:37: => Run 1038 LED 2.12 Laser wheel 3 1MHZ + ALL PIXELS ON [HV 900 V]
Jan 14: 20:38: => Run 1039 LED 2.12 Laser wheel 3 500 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:39: => Run 1040 LED 2.12 Laser wheel 3 100 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:43: => Run 1041 LED 2.09 Laser wheel 3 1MHZ + ALL PIXELS ON [HV 900 V]
Jan 14: 20:44: => Run 1042 LED 2.09 Laser wheel 3 500 kHz + ALL PIXELS ON [HV 900 V]
Jan 14: 20:44: => Run 1043 LED 2.09 Laser wheel 3 100 kHz + ALL PIXELS ON [HV 900 V]
////////HV 900 V //////Prescale = 257////MAROC SUM BOARD///////HV 900 V///////////////////
Note: w3 setting (wh3 paper or wheel 3 setting has uniform gain 64_250 ssp.cnf file ("ssp.cnfgain64_th250")
=> wheel 2 paper setting has 40% PMTgain ssp.cnf file "ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser" (40% of gain of PMT Used)
Jan 15: 09:12: => Run 1044 LED OFF Laser wheel 2 + paper 1MHZ + ALL PIXELS ON [gain 64_250 HV 900 V]
Jan 15: 09:13: => Run 1045 LED OFF Laser wheel 2 + paper 500 kHz + ALL PIXELS ON [gain 64_250 HV 900 V]
Jan 15: 09:14: => Run 1046 LED OFF Laser wheel 2 + Paper 100 kHz + ALL PIXELS ON [gain 64_250 HV 900 V]
Jan 15: 09:17: => Run 1047 LED OFF Laser wheel 3 + paper 1MHZ + ALL PIXELS ON [gain 64_250 HV 900 V]
Jan 15: 09:18: => Run 1048 LED OFF Laser wheel 3 + paper 500 kHz + ALL PIXELS ON [gain 64_250 HV 900 V]
Jan 15: 09:19: => Run 1049 LED OFF Laser wheel 3 + Paper 100 kHz + ALL PIXELS ON [gain 64_250 HV 900 V]
Jan 15: 11:20: => Run 1051 LED OFF Laser wheel 2 + paper 1MHZ + ALL PIXELS ON [40% PMTgain HV 900 V]
Jan 15: 11:22: => Run 1052 LED OFF Laser wheel 2 + paper 500 kHz + ALL PIXELS ON [40% PMTgain HV 900 V]
Jan 15: 11:23: => Run 1053 LED OFF Laser wheel 2 + Paper 100 kHz + ALL PIXELS ON [40% PMTgain HV 900 V]
Jan 15: 11:39: => Run 1054 LED OFF Laser wheel 2 + paper 1MHZ + ALL PIXELS ON [40% PMTgain and thresh 250 HV 900 V]
Jan 16: 15:22 => Run 1055 LED 2.09 Laser OFF + gain 64_250 HV 900 V
Jan 16: 15:23 => Run 1056 LED 2.12 Laser OFF + gain 64_250 HV 900 V
Jan 16: 15:24 => Run 1057 LED 2.15 Laser OFF + gain 64_250 HV 900 V
Jan 16: 17:52 => Run 1058 LED 2.09 Laser 1 MHz (wheel 3 + paper) + gain 64_250
Jan 16: 17:53 => Run 1059 LED 2.09 Laser 500 kHz (wheel 3 + paper) + gain 64_250
Jan 16: 17:54 => Run 1060 LED 2.09 Laser 100 kHz (wheel 3 + paper) + gain 64_250
Jan 16: 18:04 => Run 1061 LED 2.09 Laser 1 MHz (wheel 2 + paper) + 40% PMTgain
Jan 16: 18:05 => Run 1062 LED 2.09 Laser 500 kHz (wheel 2 + paper) + 40% PMTgain
Jan 16: 18:08 => Run 1063 LED 2.09 Laser 100 kHz (wheel 2 + paper) + 40% PMTgain
////////////Problematic runs///
Jan 16: 20:53 => Run 1064 LED OFF Laser 1MHZ wheel 2 + paper + [40% PMTgain ]
Jan 16: 20:58 => Run 1065 LED OFF Laser 500 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 16: 20:58 => Run 1066 LED OFF Laser 500 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 16: 21:14 => Run 1072 LED OFF Laser 1MZ kHZ wheel 2 + paper + [40% 850gain ]
Jan 16: 21:12 => Run 1070 LED OFF Laser 1MHZ wheel 2 + paper + uniform threshold 250 on ssp.cnf =>40% PMTgain ]
Jan 16: 21:13 => Run 1071 LED OFF Laser 1MHz kHZ wheel 2 + paper + specific threshold as on file [40% PMTgain ]
Jan 16: 22:40 => Run 1088 LED 2.09 Laser 1MHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:41 => Run 1089 LED 2.09 Laser 500 kHZ wheel 2 + paper + [40% 850 PMTgain ]
Jan 16: 22:42 => Run 1090 LED 2.09 Laser 100 kHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:56 => Run 1094 LED 2.12 Laser 1MHZ wheel 2 + paper + [ 40% PMT gain ]
Jan 16: 22:57 => Run 1095 LED 2.12 Laser 500 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 16: 22:58=> Run 1096 LED 2.12 Laser 100 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 16: 23:04 => Run 1097 LED 2.15 Laser 1MHZ wheel 2 + paper + [ 40% PMT gain ]
Jan 16: 23:05 => Run 1098 LED 2.15 Laser 500 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 16: 23:06 => Run 1099 LED 2.15 Laser 100 kHZ wheel 2 + paper + [40% PMT gain ]
///// ssp.cnf with gain 40 % of the "ssp.cnf_thrHV98fC850V_gainmap"
Jan 16: 22:30 => Run 1085 LED 2.15 Laser 1MHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:31 => Run 1086 LED 2.15 Laser 500 kHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:33 => Run 1087 LED 2.15 Laser 100 kHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:40 => Run 1088 LED 2.09 Laser 1MHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:41 => Run 1089 LED 2.09 Laser 500 kHZ wheel 2 + paper + [40% 850 PMTgain ]
Jan 16: 22:42 => Run 1090 LED 2.09 Laser 100 kHZ wheel 2 + paper + [40% 850 gain ]
Jan 16: 22:53 => Run 1091 LED 2.09 Laser 1MHZ wheel 2 + paper + [ 40% PMT gain ]
Jan 16: 22:54 => Run 1092 LED 2.09 Laser 500 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 16: 22:55 => Run 1093 LED 2.09 Laser 100 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 16: 21:04 => Run 1067 LED 2.12 Laser 1MHZ wheel 2 + paper + [40% PMTgain ]
Jan 16: 21:06 => Run 1068 LED 2.12 Laser 500 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 16: 21:09 => Run 1069 LED 2.12 Laser 100 kHZ wheel 2 + paper + [40% PMTgain ]
//// END OF PROBLEMATIC RUNS
Jan 16: 22:01: => Run 1073 LED OFF Laser wheel 3 + paper 1MHZ + [gain 64_250 HV 900 V]
Jan 16: 22:02: => Run 1074 LED OFF Laser wheel 3 + paper 500 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:04: => Run 1075 LED OFF Laser wheel 3 + Paper 100 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:08: => Run 1076 LED 2.09 Laser wheel 3 + paper 1MHZ + [gain 64_250 HV 900 V]
Jan 16: 22:09: => Run 1077 LED 2.09 Laser wheel 3 + paper 500 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:10: => Run 1078 LED 2.09 Laser wheel 3 + Paper 100 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:12: => Run 1079 LED 2.12 Laser wheel 3 + paper 1MHZ + [gain 64_250 HV 900 V]
Jan 16: 22:13: => Run 1080 LED 2.12 Laser wheel 3 + paper 500 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:18: => Run 1081 LED 2.12 Laser wheel 3 + Paper 100 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:24: => Run 1082 LED 2.15 Laser wheel 3 + paper 1MHZ + [gain 64_250 HV 900 V]
Jan 16: 22:25: => Run 1083 LED 2.15 Laser wheel 3 + paper 500 kHz + [gain 64_250 HV 900 V]
Jan 16: 22:27: => Run 1084 LED 2.15 Laser wheel 3 + Paper 100 kHz + [gain 64_250 HV 900 V]
/// Gain map ssp.cnf "ssp.cnf_thrHV98fC850V_gainmap_withlowerGain_forLaser"
Jan 17: 14:00 => Run 1105 LED OFF Laser 1MHZ wheel 2 + paper + [40% PMTgain ]
Jan 17: 14:01 => Run 1106 LED OFF Laser 500 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 17: 20:02 => Run 1107 LED OFF Laser 500 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 17: 14:18 => Run 1108 LED 2.09 Laser 1MHZ wheel 2 + paper + [40% PMTgain ]
Jan 17: 14:20 => Run 1109 LED 2.09 Laser 500 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 17: 14:21 => Run 1110 LED 2.09 Laser 100 kHZ wheel 2 + paper + [40% PMTgain ]
Jan 17: 14:24 => Run 1111 LED 2.12 Laser 1MHZ wheel 2 + paper + [ 40% PMT gain ]
Jan 17: 14:26 => Run 1112 LED 2.12 Laser 500 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 17: 14:28 => Run 1113 LED 2.12 Laser 100 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 17: 14:30 => Run 1114 LED 2.15 Laser 1MHZ wheel 2 + paper + [ 40% PMT gain ]
Jan 17: 14:31 => Run 1115 LED 2.15 Laser 500 kHZ wheel 2 + paper + [40% PMT gain ]
Jan 17: 14:32 => Run 1116 LED 2.15 Laser 100 kHZ wheel 2 + paper + [40% PMT gain ]
// prescale factor = 513
Jan 17: 18:47 => Run 1117 LED OFF Laser 2 MHZ wheel 2 + paper (PS 513) + [ 40% PMT gain ]
Jan 17: 18:49 => Run 1118 LED 2.09 Laser 2 MHZ wheel 2 + paper (PS 513) + [40% PMT gain ]
Jan 17: 18:51 => Run 1119 LED 2.12 Laser 2 MHZ wheel 2 + paper (PS 513) + [40% PMT gain ]
Jan 17: 18:53 => Run 1120 LED 2.15 Laser 2 MHZ wheel 2 + paper (PS 513) + [ 40% PMT gain ]
///////////// prescale factor = 513
Jan 17: 18:57 => Run 1121 LED OFF Laser 2 MHZ wheel 3 + paper (PS 513) + [ gain 64_250 HV 900 V]
Jan 17: 18:59 => Run 1122 LED 2.09 Laser 2 MHZ wheel 3 + paper (PS 513) + [ gain 64_250 HV 900 V]
Jan 17: 19:01 => Run 1123 LED 2.12 Laser 2 MHZ wheel 3 + paper (PS 513) + [ gain 64_250 HV 900 V]
Jan 17: 19:04 => Run 1124 LED 2.15 Laser 2 MHZ wheel 3 + paper (PS 513) + [ gain 64_250 HV 900 V]
///////////////////////// prescale factor = 1025
Jan 17: 19:16 => Run 1126 LED OFF Laser 5 MHZ wheel 3 + paper PS 1025 + [ gain 64_250 HV 900 V]
Jan 17: 19:17 => Run 1127 LED 2.09 Laser 5 MHZ wheel 3 + paper PS 1025 + [ gain 64_250 HV 900 V]
Jan 17: 19:19 => Run 1128 LED 2.12 Laser 5 MHZ wheel 3 + paper PS 1025 + [ gain 64_250 HV 900 V]
Jan 17: 19:21 => Run 1129 LED 2.15 Laser 5 MHZ wheel 3 + paper PS 1025 + [ gain 64_250 HV 900 V]
Jan 17: 19:35 => Run 1131 LED OFF Laser 5 MHZ wheel 2 + paper (PS 1025) + [ 40% PMT gain ]
Jan 17: 19:37 => Run 1132 LED 2.09 Laser 5 MHZ wheel 2 + paper (PS 1025) + [40% PMT gain ]
Jan 17: 19:39 => Run 1133 LED 2.12 Laser 5 MHZ wheel 2 + paper (PS 1025) + [40% PMT gain ]
Jan 17: 19:41 => Run 1134 LED 2.15 Laser 5 MHZ wheel 2 + paper (PS 1025) + [ 40% PMT gain ]
//////////////////////// prescale factor = 4097 [RICH TDC DECODER CRASHES]
Jan 17: 21:57 => Run 1135 LED OFF Laser 20 MHZ wheel 2 + paper (PS 1025) + [ 40% PMT gain ]
Jan 17: 22:02 => Run 1136 LED OFF Laser 20 MHZ wheel 2 + paper (PS 513) + [ 40% PMT gain ]
Jan 17: 22:02 => Run 1137 LED OFF Laser 20 MHZ wheel 3 + paper (PS 513) + [ gain 64_250 HV 900 V]
//////////// WHEEL 3 ONLY SETTING/////////////
Jan 18: 10:30 => Run 1142 LED OFF Laser 1 MHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]]
Jan 18: 10:38 => Run 1143 LED 2.09 Laser 1 MHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]
Jan 18: 10:42 => Run 1144 LED 2.12 Laser 1 MHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]
Jan 18: 10:44 => Run 1145 LED 2.15 Laser 1 MHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]
Jan 18: 10:49 => Run 1146 LED OFF Laser 500 KHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]]
Jan 18: 10:53 => Run 1147 LED 2.09 Laser 500 KHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]
Jan 18: 10:59 => Run 1148 LED 2.12 Laser 500 KHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]
Jan 18: 11:06 => Run 1149 LED 2.15 Laser 500 KHZ wheel 3 + Only (PS 257) + [ gain 64_250 HV 900 V]
Jan 18: 11:11 => Run 1150 LED OFF Laser 100 KHZ wheel 3 + Only (PS 33) + [ gain 64_250 HV 900 V]]
Jan 18: 11:14 => Run 1151 LED 2.09 Laser 100 KHZ wheel 3 + Only (PS 33) + [ gain 64_250 HV 900 V]
Jan 18: 11:17 => Run 1152 LED 2.12 Laser 100 KHZ wheel 3 + Only (PS 33) + [ gain 64_250 HV 900 V]
Jan 18: 11:20 => Run 1153 LED 2.15 Laser 100 KHZ wheel 3 + Only (PS 33) + [ gain 64_250 HV 900 V]
Jan 18: 13:11 => Run 1157 LED OFF Laser 2 MHZ wheel 3 + Only (PS 513) + [ gain 64_250 HV 900 V]]
Jan 18: 13:14 => Run 1158 LED 2.09 Laser 2 MHZ wheel 3 + Only (PS 513) + [ gain 64_250 HV 900 V]
Jan 18: 13:17 => Run 1159 LED 2.12 Laser 2 MHZ wheel 3 + Only (PS 513) + [ gain 64_250 HV 900 V]
Jan 18: 13:21 => Run 1160 LED 2.15 Laser 2 MHZ wheel 3 + Only (PS 513) + [ gain 64_250 HV 900 V]
Jan 18: 13:26 => Run 1163 LED OFF Laser 5 MHZ wheel 3 + Only (PS 2049) + [ gain 64_250 HV 900 V]]
Jan 18: 13:29 => Run 1164 LED 2.09 Laser 5 MHZ wheel 3 + Only (PS 2049) + [ gain 64_250 HV 900 V]
Jan 18: 13:35 => Run 1165 LED 2.12 Laser 5 MHZ wheel 3 + Only (PS 2049) + [ gain 64_250 HV 900 V]
Jan 18: 13:38 => Run 1166 LED 2.15 Laser 5 MHZ wheel 3 + Only (PS 2049) + [ gain 64_250 HV 900 V]
Jan 18: 13:45 => Run 1167 LED OFF Laser 20 MHZ wheel 3 + Only (PS 8193) + [ gain 64_250 HV 900 V]
Jan 18: 14:04 => Run 1171 LED OFF Laser 20 MHZ wheel 3 + Only (PS 8193) + [ gain 64_250 HV 900 V]]
Jan 18: 13:48 => Run 1168 LED 2.09 Laser 20 MHZ wheel 3 + Only (PS 8193) + [ gain 64_250 HV 900 V]
Jan 18: 13:51 => Run 1169 LED 2.12 Laser 20 MHZ wheel 3 + Only (PS 8193) + [ gain 64_250 HV 900 V]
Jan 18: 13:53 => Run 1170 LED 2.15 Laser 20 MHZ wheel 3 + Only (PS 8193) + [ gain 64_250 HV 900 V]
////////////20 MHz
Jan 18: 09:16 => Run 1178 LED OFF Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
Jan 18: 09:19 => Run 1179 LED 2.09 Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
Jan 18: 09:21 => Run 1180 LED 2.12 Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
Jan 18: 09:22 => Run 1181 LED 2.15 Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
// RICH DECODER CRASHES
Jan 18: 09:24 => Run 1182 LED OFF Laser 20 MHZ wheel 2 + paper PS 8193 +[40% PMT gain ]
Jan 18: 09:25 => Run 1183 LED 2.09 Laser 20 MHZ wheel 2 + paper PS 8193 + [40% PMT gain HV 900 V]
Jan 18: 09:26 => Run 1184 LED 2.12 Laser 20 MHZ wheel 2 + paper PS 8193 + [40% PMT gain HV 900 V]
Jan 18: 09:27 => Run 1185 LED 2.15 Laser 20 MHZ wheel 2 + paper PS 8193 + [40% PMT gain HV 900 V]
// ADDITION DATA FOR 20 MHz
Jan 18: 09:31 => Run 1186 LED OFF Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
Jan 18: 09:32 => Run 1187 LED 2.09 Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
Jan 18: 09:33 => Run 1188 LED 2.12 Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
Jan 18: 09:34 => Run 1189 LED 2.15 Laser 20 MHZ wheel 3 + paper PS 8193 + [ gain 64_250 HV 900 V]
//////////// 5 MHz
Jan 18: 09:36=> Run 1190 LED OFF Laser 5 MHZ wheel 3 + paper PS 2049 + [ gain 64_250 HV 900 V]
Jan 18: 09:38 => Run 1191 LED 2.09 Laser 5 MHZ wheel 3 + paper PS 2049 + [ gain 64_250 HV 900 V]
Jan 18: 09:40 => Run 1192 LED 2.12 Laser 5 MHZ wheel 3 + paper PS 2049 + [ gain 64_250 HV 900 V]
Jan 18: 09:42 => Run 1193 LED 2.15 Laser 5 MHZ wheel 3 + paper PS 2049 + [ gain 64_250 HV 900 V]
Jan 18: 09:44 => Run 1195 LED OFF Laser 5 MHZ wheel 2 + paper PS 2049 +[40% PMT gain ]
Jan 18: 09:45 => Run 1196 LED 2.09 Laser 5 MHZ wheel 2 + paper PS 2049 + [40% PMT gain HV 900 V]
Jan 18: 09:46 => Run 1197 LED 2.12 Laser 5 MHZ wheel 2 + paper PS 2049 + [40% PMT gain HV 900 V]
Jan 18: 09:48 => Run 1198 LED 2.15 Laser 5 MHZ wheel 2 + paper PS 2049 + [40% PMT gain HV 900 V]
//////MAROC SUM BOARD /// ONE PIXEL
Jan 19:01:03 =>Run 1199 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 only one sum channel enabled (ALL FADC 0x 00000001 0x 0000000
Jan 19:01:04 =>Run 1213 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 2 TDC Pixel (ALL FADC pixels) [40% PMT gain HV 900 V]
Jan 19:01:06 =>Run 1215 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 00000011 0x 0000000)
Jan 19:01:07 =>Run 1216 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 00000012 0x 0000000)
Jan 19:01:08 =>Run 1217 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 00000010 0x 0000000)
Jan 19:01:19 =>Run 1218 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 00000000 0x 0000001)
Jan 19:01:19 =>Run 1220 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 00000000 0x 1000000)
Jan 19:01:35 =>Run 1221 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 00010001 0x 00010001)
Jan 19:01:37 =>Run 1222 LED OFF LASER 1 MHz Wheel 2 + paper PS 257 All TDC Pixel (ALL FADC 0x 1000001 0x 10000001)
Jan 19:01:37 =>Run 1224 LED OFF LASER 1 MHz Wheel 3 + paper PS 257 All TDC Pixel (ALL FADC 0x 0000001 0x 00000001)
Jan 19:01:37 =>Run 1225 LED OFF LASER 1 MHz Wheel 3 + paper PS 257 All TDC Pixel (ALL FADC 0x 0000000 0x 00000001)
Jan 19:01:48 =>Run 1226 LED OFF LASER 1 MHz Wheel 3 + paper PS 257 All TDC Pixel (ALL FADC 0x 0001001 0x 00001001)
Jan 19:01:51 =>Run 1227 LED OFF LASER 1 MHz Wheel 3 + paper PS 257 4 TDC TDC Pixel (ALL sum)
/////////////COSMIC DATA ///////////////
/// TEST OF 1 VS 5 FADC Board connected to LV (OSCILLATION)
Run 1308 => DC LED 2.11 V (gain 64) => All LV connector on [comment: Large oscillation in FADC signal]
Run 1309 => DC LED 2.11 V (gain 850) => 1 LV connector on [Oscillation is reduced]
Run 1311 => DC LED 2.105 V (gain 64) => 1 LV connector on [Oscillation is reduced]
Run 1312 => DC LED 2.090 V (gain 64) => 1 LV connector on Rate 10 Hz (start time : End Time Duration:[Oscillation is reduCED
/// Good cosmics runs /// gain 64 // Scintillator trigger threshold 300 (looks like threshold is low)
Run 1319 => COSMIC DATA slot 3 FADC offset 1272 and Slot 4 OFFSET 1072 [comment not with Right TDC OFFSET]
Run 1320 => COSMIC DATA TDC OFFSET 1900
Run 1321 => COSMIC DATA TDC OFFSET 1900
Run 1325 => COSMIC DATA TDC OFFSET 1900
Run 1326 => COSMIC DATA TDC OFFSET 1900
///Run from here are at threshold 320 for scintillator
Run 1330 => COSMIC DATA TDC OFFSET 1900 [Trig threshold 320] [COMMENT RICH DECODER CRASHES]
Run 1332 => COSMIC DATA TDC OFFSET 1900 [Trig threshold 310]
// OSCILLATION CHECK WITH MODIFIED SUM BOARD//
RUN 1334 DC LED 2.12 V , 1KHZ ONLY ONE FPGA BOARD CONNECTED TO LV
RUN 1335 DC LED 2.12 V , 1KHZ ONLY 5 FPGA BOARD CONNECTED TO LV
Run 1374 Pulsed LED 4.4 V, 1 KHz, 5 Slots, after board modification
Run 1381 Pulsed LED 4.4 V, 1 KHz, 5 Slots, after board modification
//COSMIC DATA ////////////
Run 1336 => COSMIC DATA TDC OFFSET 1900 [Threshold 310, scintillators are perpendicular to minimize the overlap area] (gain64)
Run 1376 => COSMIC DATA TDC OFFSET 1900 [Threshold 310, scintillators are perpendicular to minimize the overlap area] All 5 Slots (gain64)
Run 1382 => COSMIC DATA TDC OFFSET 1900 [Threshold 310, scintillators are perpendicular to minimize the overlap area] All 5 Slots (850 gain)
Run 1384 => COSMIC DATA TDC OFFSET 1900 [Threshold 310, scintillators are perpendicular to minimize the overlap area] All 5 Slots (gain64)
Run 1385 => COSMIC DATA TDC OFFSET 1900 [Threshold 310, scintillators are perpendicular to minimize the overlap area] All 5 Slots (gain64)
////// distance between the scintillators is changed from 17 inch to 3 ft 8 inch =44 inch
Run 1386 => COSMIC DATA TDC OFFSET 1900 [Threshold 310, scintillators are perpendicular to minimize the overlap area] All 5 Slots (gain64) (distance between the scintillators 3 ft 8 inch]
Run 1405 => COSMIC DATA TDC OFFSET 1900 [Threshold S1 310, and Threshold S2 525 Scintillaors are perpendicular to minimize the overlap area (1 small scintillator)] All 5 Slots (gain64) (distance between the scintillators 17inch]
Run 1413 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain64) (distance between the scintillators 17inch]
Run 1414 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain 2X 64) (distance between the scintillators 17inch]
Run 1415 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain64) (distance between the scintillators 17inch]
Run 1417 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain64) (distance between the scintillators 17inch]
Run 1418 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain64) (distance between the scintillators 17inch]
Run 1419 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain64 and Threshold 350) (distance between the scintillators 17inch]
Run 1420 => COSMIC DATA TDC OFFSET 1900 [Scintillators from Simona)] 5 Slots (gain64 and Threshold 350) (distance between the scintillators 17inch]
Run 1421 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 40 ns) (distance between the scintillators 17inch]
Run 1422 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 9 ns) (distance between the scintillators 17inch]
Run 1423 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 25 ns) (distance between the scintillators 17inch]
Run 1424 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 25 ns) (distance between the scintillators 17inch]
Run 1425 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 25 ns) (distance between the scintillators 17inch] [1x1 inch]
/// SSP threshold set to individual channels specific to channel
Run 1427 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 25 ns) (distance between the scintillators 17inch]
Run 1428 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 individual Threshold 1000 V + trig window 25 ns) (distance between the scintillators 17inch] [4x4 inch]
Run 1429 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 individual Threshold 1000 V + trig window 60 ns) (distance between the scintillators 17inch] overlap [4x4 inch]
Run 1435 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 individual Threshold 1000 V + trig window 60 ns) (distance between the scintillators 17inch] 4 scintillator in coincidence overlap [4x4 inch]
Run 1437 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 individual Threshold 1000 V + trig window 60 ns) (distance between the scintillators 17inch] 2 scintillator in coincidence overlap [1x1 inch>> middle of PMTs array]
/// 4 scintillators in coincidence
Run 1455 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 individual Threshold 1000 V + trig window 60 ns) (distance between the scintillators 36inch] 4 scintillator in coincidence overlap [1x1 inch>> middle of PMTs array]
LED ON CW 2.09 V
Run 1426 => COSMIC DATA [Scintillators from Simona)] 5 Slots (gain64 and Threshold 250 + trig window 25 ns) (distance between the scintillators 17inch]
///////// PIXEL MAPPING TEST ////////
Run 1463 => blocked PMT 13, 14, 15 => Only pixel 36 of PMT 13 is ON => As expected CODA data shows pixel 36
Run 1465 => blocked PMT 1, 2, 3 => Only pixel 37 of PMT 3 is ON => As expected CODA data shows pixel 37
Run 1467 => blocked PMT 10, 11, 12 => Only pixel 36 of PMT 10 is ON => As expected CODA data shows pixel 36
//// CSOMIC with reduced distance between lucite and pmt surface////////////
Run 1483 => HV 850 One PMT from Alex (smaller) and one from Simona + Threshold for specific PMT
Run 1484 => HV 850 One PMT from Alex (smaller) and one from Simona + Threshold for specific PMT
Run 1485 => HV 850 One PMT from Alex (smaller) and one from Simona + Threshold for specific PMT (Threshold 10 unit less)
Run 1486 => HV 1000 One PMT from Alex (smaller) and one from Simona + Threshold for specific PMT (Threshold 10 unit less)
// Study with variation of PMT gain
Run 1487 => HV 1000 Both PMTfrom Simona + Threshold for specific PMT (Threshold 10 unit less) =>HV cable swapped for right one [[ gain 64]]
Run 1488 => HV 1000 Both PMTfrom Simona + Threshold for specific PMT (Threshold 10 unit less) =>HV cable swapped for right one [[ gain 128 ]]
// now with 250 uniform threshold
Run 1489 => HV 1000 Both PMTfrom Simona + Threshold for specific PMT (Threshold Uniform 250 ) =>HV cable swapped for right one [[ gain 128 ]]
/// Gain back to 64
Run 1490=> HV 1000 Both PMTfrom Simona + Threshold for specific PMT (Threshold Uniform 250 ) =>HV cable swapped for right one [[ gain 64 ]]
Run 1491=> HV 1000 Both PMTfrom Simona + Threshold for specific PMT (Specific threshold) =>HV cable swapped for right one [[ gain 64 ]]
Run 1492=> HV 1000 Both PMTfrom Simona + Threshold for specific PMT (Uniform Threshold 275) =>HV cable swapped for right one [[ gain 64 ]]
Run 1493=> HV 1000 Both PMTfrom Simona + Threshold for specific PMT (specific + 10) =>HV cable swapped for right one [[ gain 64 ]]
/// inclined and lucite top covering off
Run 1504=> HV 1000 Both PMTfrom Simona + Alex on top Threshold for specific PMT (Uniform Threshold 275) =>HV cable swapped for right one [[ gain 64 ]]
Run 1505=> HV 1000 Both PMTfrom Simona + Alex on top Threshold for specific PMT (Uniform Threshold +20) =>HV cable swapped for right one [[ gain 64 ]]
Run 1508=> HV 1000 Both PMTfrom Simona + Alex on top Threshold for specific PMT (Uniform Threshold +20) =>HV cable swapped for right one [[ gain 3x 64]]
// lucite not inclined // pmt arranged so that cosmic with angle greater than 13 deg hits lucite
Run 1509=> HV 1000 Both PMTfrom Simona + Alex on top Threshold for specific PMT (Uniform Threshold +20) =>HV cable swapped for right one [[ gain 64 ]]
Run 1511=> HV 1000 Both PMTfrom Simona + Alex (Big) on top Threshold for specific PMT (Uniform Threshold +20) =>HV cable swapped for right one [[ gain 64 ]]
// With LED ON 2.015 (50 khz/pmt
Run 1512=> HV 1000 Both PMTfrom Simona + Alex (Big) on top Threshold for specific PMT (Uniform Threshold +20) =>HV cable swapped for right one [[ gain 64 ]]
Run 1513=> HV 1000 Both PMTfrom Simona + Alex (Big) on top Threshold for specific PMT (Uniform Threshold +40) =>HV cable swapped for right one [[ gain 64 ]]
Run 1514=> HV 1000 Both PMTfrom Simona + Alex (Big) on top Threshold for specific PMT (Threshold at ped value just to check ) =>HV cable swapped for right one [[ gain 64 ]]
// Scintillator one from Alex and one from Chuck (both small)
Run 1526=> HV 1000 Both small pmts Threshold for specific PMT (Uniform Threshold +40 ) =>HV cable swapped for right one [[ gain 64 ]]
Run 1527=> HV 1000 Both small pmts Threshold for specific PMT (Uniform Threshold + 25) =>HV cable swapped for right one [[ gain 64 ]]
Run 1532=> HV 1000 Both small pmts Threshold for specific PMT (Uniform Threshold +25 ) =>HV cable swapped for right one [[ gain 64 ]]
Run 1540=> HV 850 Both small pmts Threshold for specific PMT (Uniform Threshold +25 ) =>HV cable swapped for right one [[ gain 64 ]]
Run 1555=> HV 1000 Both small pmts Threshold for specific PMT (Uniform Threshold +10 ) => [[ 850 gain map ]]
Run 1556=> HV 1000 Both small pmts Threshold for specific PMT (Uniform Threshold +25 ) => [[ 850 gain map ]]
Run 1559=> HV 1000 Both small pmts Threshold for specific PMT (Uniform Threshold +50 ) => [[ 850 gain map ]]
HV from Simona (https://logbooks.jlab.org/entry/3807172)
Run 1560=> HV 1100 (from Simona) Both small pmts Threshold for specific PMT (Uniform Threshold +50 ) => [[ 850 gain map ]]
Run 1561=> HV 1100 (from Simona) Both small pmts Threshold for specific PMT (Uniform Threshold +25 ) => [[ 850 gain map ]]
Run 1563=> HV 1100 (from Simona) Both small pmts Threshold for specific PMT (Uniform Threshold +4 ) => [[ 850 gain map ]]
//// Check the effect of pedestal with one or multiple PMT powered with HV and LV
Run 1586 =>HV 1100 V All PMT powered (analyzing PMT Cer13)
Run 1587 => HV ON for only one PMT but LV ON for all PMT
Run 1588 => HV On for CER13 LV ON for only one board.
Run 1614 => HV 1000 850 gain map + TET + 25 above pedestal (about 500 events)
////////// Long cosmic run HV 850 PMT 2, 3, 4 and partial 5 are absent for FADC ///
Run 1615 => HV 850 850 gain map + TET + 25 above pedestal (about 500 events)
Run 1616 => HV 850 850 gain map + TET + 25 above pedestal (about 3500 events)
// SPE SEARCH
Run 1629 => 850 850 gain map + random trigger LED DC 2.10,
Run 1641 => 850 850 gain map + random trigger LED DC 2.10, Channel 1, 33 and 191 are only unmasked
// scintillator from Simona (3 coincidence top one and bottom two) // FADC Slot 3 ch1 (off) channel 2 (top scintillator) ch 3 and ch 4 bottom
Run 1678 => HV 850 850 gain map + TET + 25 above pedestal (About 20 k events)
Run 1679 => HV 850 850 gain map + TET + 25 above pedestal (2 k events)
// Small scintillators from Alex and Chuck
Run 1682 => HV 850 850 gain map + TET + 25 above pedestal (events)
/// One scintillator from Alex and one bottom one from simona
Run 1701 HV 850 gain map (850) +25 above pedestal 1500 events
Run 1702 HV 850 gain map (850) +25 above pedestal 3500 events
// pixel test one pixel on vs several pixel on with LED
Run 1718 => HV 850 + TET +25 + All pixel on + LED 2.02 V
Run 1720 => HV 850 + TET +25 + Pixels 1, 42, and 64 on from group 1, 2, and 3 respectively + pixel on + LED 2.02 V
// Cosmic run 3 scintillators // two from chuck and one from alex on top
Run 1723 => HV 850 + TET +25 + scint_1 (Alex) scint (2) chuck and scint3 (made from cut piece of scintillator)
/// oscillation of FADC signal test
Run 1728 => two scintillator (from Alex and from Chuck) on top of each other
Run 1729 => two scintillator (from Alex and from Chuck) on top and other at bottom of PMT box
Run 1730 => two scintillator (from Alex and from Chuck) on top of each other with LV OFF
Run 1731 => two scintillator (from Alex and from Chuck) on top of each other with LV OFF (short run)
Run 1732 => two scintillator (from Alex and from Chuck) on top of each other with LV OFF (short run)
Run 1733 => two scintillator (from Alex and from Chuck) on top of each other with LV OFF (long run)
Run 2073 =>3 pieces of lucite + 1000 V + Alex + Chuck scintillator long run (15 k events)
/// LED RING SEARCH
Run 2080 => cardboard box + LED inside + 1000 V + (LED 3.82 + paper)
Run 2081 => cardboard box + LED inside + 1000 V + (LED 3.72 + paper)
Run 2084 => cardboard box + LED inside + 1000 V + (LED 3.65 + paper)
Run 2085 => cardboard box + LED inside + 1000 V + (LED 3.70 + paper)
Run 2086 => cardboard box + LED inside + 850 V + (LED 3.70 + paper)
Run 2087 => cardboard box + LED inside + 850 V + (LED 3.75 + paper)
Run 2088 => cardboard box + LED inside + 850 V + (LED 3.80 + paper)
Run 2089 => cardboard box + LED inside + 850 V + (LED 3.85 + paper)
// new runs with LED background taking function generator from Jeff Wilson
Run 2222 => cardboard box + LED inside + 850 V + (LED 3.70 + paper) [No LED]
Run 2223 => cardboard box + LED inside + 850 V + (LED 3.75 + paper) [No LED]
Run 2224 => cardboard box + LED inside + 850 V + (LED 3.75 + paper) [Background 2.21 V LED]
Run 2225 => cardboard box + LED inside + 850 V + (LED 3.75 + paper) [Background 2.22 V LED]
Run 2226 => cardboard box + LED inside + 850 V + (LED 3.75 + paper) [Background 2.23 V LED]
Run 2227 => cardboard box + LED inside + 850 V + (LED 3.75 + paper) [Background 2.24 V LED]
Run 2228 => cardboard box + LED inside + 1000 V + (LED 3.75 + paper) [No LED]
Run 2229 => cardboard box + LED inside + 1000 V + (LED 3.70 + paper) [No LED]
Run 2231 => cardboard box + LED inside + 1000 V + (LED 3.70 + paper) [Background 2.21 V LED]
Run 2232 => cardboard box + LED inside + 1000 V + (LED 3.70 + paper) [Background 2.22 V LED]
Run 2233 => cardboard box + LED inside + 1000 V + (LED 3.70 + paper) [Background 2.23 V LED]
Run 2234 => cardboard box + LED inside + 1000 V + (LED 3.70 + paper) [Background 2.24 V LED]
Run 2235 => cardboard box + LED inside + 1000 V + (LED OFF) [Background 2.21 V LED]
Run 2236 => cardboard box + LED inside + 1000 V + (LED OFF) [Background 2.22 V LED]
Run 2237 => cardboard box + LED inside + 1000 V + (LED OFF) [Background 2.23 V LED]
Run 2238 => cardboard box + LED inside + 1000 V + (LED OFF) [Background 2.24 V LED]
// PMT HA13700
Run 2095 => optical fiber 4 and 5
Run 2096 => optical fiber 1 and 2
Run 2130 => optical fiber 1 and 2 (high light)
Run 2131 => optical fiber 1 and 2 (low light)
Run 2135 => optical fiber 1 and 2 (low light) PMT PA0020 newly found at laser stand
// Checking mapping of HA13700
// Bottom (Adaptor board other side of PMT) is connected with fiber 1 and top is connected to fiber
Run 2158 LED 3.50 HV 1000 short run
Run 2159 LED 3.50 HV 1000 long run
Run 2160 LED 3.450 HV 1000
Run 2161 LED 3.40 HV 1000
Run 2162 LED 3.35 HV 1000
Run 2163 LED 3.30 HV 1000
Run 2164 LED 3.20 HV 1000
Run 2166 LED 3.40 HV 950
Run 2167 LED 3.30 HV 950
Run 2168 LED 3.50 HV 950
Run 2169 LED 3.50 HV 900
Run 2170 LED 3.45 HV 900
Run 2171 LED 3.40 HV 900
Run 2172 LED 3.35 HV 900
Run 2173 LED 3.55 HV 900
Run 2174 LED 3.55 HV 850
Run 2175 LED 3.60 HV 850
Run 2176 LED 3.50 HV 850
Run 2177 LED 3.45 HV 850
Run 2178 LED 3.40 HV 850
Run 2179 LED 3.35 HV 850
PMT FROM MARCO (PA0023)
Run 2244 + 1000 V pixels 1-128
Run 2245 + 1000 V pixels 129-256
////////////
/// COSMIC RUN WITH NEW LUCITE
2102 => 850 V + individual threshold above 30
2121 => 1000 V + individual threshold above 30 (fast run long run one scintillator on top of other)
2127 => 1000 V + individual threshold above 30 (short run (900 events one scintillator on top and other at bottom of the box)
2138 => 1000 V + individual threshold above 30 (short run (900 events one scintillator on top and other at bottom of the box) "Covered with wrapper on top to minimize reflection"
2139 => 1000 V + individual threshold above 30 (one scintillator on top of other)
2142 => 1000 V + individual threshold above 30 (slow rate one scintillator on top and other at bottom of PMT) "Not covered with wrapper"
2143 => 1000 V + individual threshold above 30 (slow rate one scintillator on top and other at bottom of PMT) "Not covered with wrapper"
2181 => 850 V + NO LUCITE individual threshold above 30 (slow rate one scintillator on top and other at bottom of PMT) "Not covered with wrapper"
2182 => 1000 V + NO LUCITE individual threshold above 30 (fash rate one scintillator on top of other) "Not covered with wrapper"
2184 => 1000 V + NO LUCITE individual threshold above 60 (fash rate one scintillator on top of other) "Not covered with wrapper"
2186 => 850 V + NO LUCITE individual threshold above 40 (fash rate one scintillator on top of other) "Not covered with wrapper"
2188 => 850 V + NO LUCITE LED ON individual threshold above 40 (fash rate one scintillator on top of other) "Not covered with wrapper"
2189=> 850 V + cosmic run with lucite slow rate
2190=> 850 V + cosmic run with lucite slow rate
2191=> 850 V + cosmic run with lucite slow rate
//lED BACKGROUND RUNS ON COSMIC DATA
2192=> 850 V + cosmic run with lucite slow rate + LED ON (2.20 V with paper infront of LED, scaler run 20210712_094137)
2193=> 850 V + cosmic run with lucite slow rate + LED ON (2.20 V with paper infront of LED, scaler run 20210712_094137
2208=> 850 V + cosmic run with lucite slow rate + LED ON (2.21 V with paper infront of LED, scaler run 20210712_094137
2210 => 850 V + LED background (LED 2.21)
2211 => 850 V + LED background (LED 2.21)
2212 => 850 V + LED background (LED 2.25)
2213 => 850 V + LED background (LED 2.22)
2217=> 850 V + cosmic data WITHOUT LED background slow rate + LED OFF
2218=> 850 V + cosmic data WITHOUT LED background slow rate + LED OFF
2241=> 850 V + cosmic data WITHOUT LED background slow rate + LED OFF
2247 => 850 V + LED background with LED trigger for LED background (LED 2.22)
2248 => 850 V + LED background with LED trigger for LED background (LED 2.22)
2249 => 850 V + LED background with LED trigger for LED background (LED 2.22)
2250 => 850 V + LED background with LED trigger for LED background (LED 2.22)
2251 => 850 V + LED background with LED trigger for LED background (LED 2.22)
2252 => 850 V + LED background with LED trigger for LED background (LED 2.22)
2253 => 850 V + LED background with LED trigger for LED background (LED 2.22)
///// 1000 V with LED background
2259=> 1000 V + LED background with LED trigger for LED background (LED 2.22)
2260=> 1000 V + LED background with LED trigger for LED background (LED 2.22)
2262=> 1000 V + LED background with LED trigger for LED background (LED 2.22)
2265=> 1000 V + LED background with LED trigger for LED background (LED 0)
2298=> 1000 V + LED background with LED trigger for LED background (LED 0)
2317=> 1000 V + LED background with LED trigger for LED background (LED 0)
// LED RING SEARCH
Run 2336 => cardboard box + LED inside + 850 V + (LED 3.05 + paper) [No LED]
Run 2327 => cardboard box + LED inside + 850 V + (No Signal LED + paper) [2.26 V LED = ~200 kHz/pixel]
Run 2337 => cardboard box + LED inside + 850 V + (LED 3.05 + paper) [2.26 V LED = ~200 kHz/pixel]
Run 2339 => cardboard box + LED inside + 850 V + (LED 3.05 + paper) [2.24 V LED = ~150 kHz/pixel]
Run 2345 => cardboard box + LED inside + 850 V + (No Signal LED + paper) [2.24 V LED = ~150 kHz/pixel]
Run 2346 => cardboard box + LED inside + 850 V + (No Signal LED + paper) [2.22 V LED = ~70 kHz/pixel]
Run 2348 => cardboard box + LED inside + 850 V + (LED 3.05 Signal + paper) [2.22 V LED = ~70 kHz/pixel]
Run 2340 => cardboard box + LED inside + 1000 V + (LED 3.05 + paper) [No LED]
Run 2341 => cardboard box + LED inside + 1000 V + (LED 3.05 + paper) [2.24 V LED = ~170 kHz/pixel]
Run 2342 => cardboard box + LED inside + 850 V + (No Signal LED + paper) [2.24 V LED = ~170 kHz/pixel]
Run 2343 => cardboard box + LED inside + 850 V + (No Signal LED + paper) [2.26 V LED = ~220 kHz/pixel]
Run 2344 => cardboard box + LED inside + 1000 V + (LED 3.05 + paper) [2.26 V LED = ~220 kHz/pixel]
/// COSMIC TWO LED 100 Khz/pixel
Run 2354 => 850 V + LED background (Two LED 100 khz/pixel)
Run 2355 => 850 V + LED background (Two LED 100 khz/pixel)
Run 2356 => 850 V + LED background (Two LED 100 khz/pixel)
Run 2357 => 850 V + LED background (Two LED 100 khz/pixel)
Run 2359 => 850 V + LED background (Two LED 100 khz/pixel)
Run 2360 => 850 V + LED background (Two LED 100 khz/pixel)
