List with bad APVs:
Crap:
APV 5 L6-p Channel 23
Not working:
L3-n APV 3
At room temperature.
Noise file from run 001
PedestalRun_001
FIRRun_001
At room temperature
See DelayRun_001
Pedestal run at room temperature.
6 subevents. Noise reference run.
Delay as latest run.
Reference run for bad strips.
We moved the second cable to the third connector on the FADC to match DESY testbeam conditions.
New pedestal run after switching the connectors.
New FIR run after reconecting to original setting.
Old delay settings and FIRRun_002
PedestalRun004
Latest delay settings and FIRRun
Latest delay, FIRRun002.
Check for bad strips.
Latest delay and FIRRun
Operating with AIDA telescope: TLUControl.exe.exe -d 3 -a 11 - i RJ45
Dut Position (left to right): 11, 06, 05, 07
Infineon new stack - batch 4
Infineon_run002 is just a calibration run for the vertical positioned sensors.
single hit
HV=300V, total I = 4.0044 µA
strips vertical
Table Position: H: 96mm V: 101mm
data file in L:\cern14\infineon\Infineon Run vert
config file l:\cern14\infineon\Infineon Run horiz\cern14_infineon_single.cfg
--Stopped 18.11 / 20:20---
Reason: Enough events, adjusting new DUT position for next run
Events: 300000
First run was at: 23 (no track)
TimingRun_001:
Trigger delay: 26
TimingRun_002:
Trigger delay: 29
TimingRun_003:
Trigger delay: 32
TimingRun_004:
Trigger delay: 20
TimingRun_005:
Trigger delay: 17
Trigger delay: 14 Trigger chip delay: 110
Latest ADC scan and FIR run.
Latest CAL.
Position: 0.0, see elog entry.
We set the coordinates trying to put the beam in an area with well working APVs
Peak of course differs for n and p sensors due to their different pitch.
L4-6 n-side Peak around strip 180
L4&6 p-side mean value around strip 380
L5 p-side moved by 4.8mm due to reasons (APV misalignment I think) therefore the peak of the same measurements is moved by 4.8/75µm = 64 strips therefore centered around strip 320
The coordinates of the x-y table were set to 0:0 at this point. Refer to Run Alignment2 for reference data.