Difference between revisions of "TamarD Logbook"
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+ | The GEM detector is working! | ||
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+ | Lets check the TGEM detector | ||
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[http://www.iac.isu.edu/mediawiki/index.php/Delta_D_over_D Go Back] | [http://www.iac.isu.edu/mediawiki/index.php/Delta_D_over_D Go Back] |
Revision as of 17:23, 3 October 2008
9/5/08
Detector Construction
4 chambers are built.
TGEM:
Foils have been mounted on the TGEM comparison chamber. Both charge collectors are mounted on the TGEM test detectors. One TGEM test detector has the Thick PC board GEM foils which need much higher HV than the regular GEM foils. The second TGEM test chamber has 3 GEM foils from CERN.
Need a min of 32 1 Meg Ohm resistors to complete the output termination connectors. Need 32 more termination connectors made from 16 wires.
Need to grind down 16, M3 bolts for mounting the GEM foils and TGEM PCboards.
Need 24 washers for GEM foils. Check mounting of the TGEM boards. Look up spacing and HV for the TGEM boards[1], Media:01352098.pdf .
Need to etch 2 cathodes for the TGEm boards.
Qweak:
a.) Need to do final outer footprint machining so there is no interference with the Electron profile of the other octant.
b.) Need to machining back of the chamber for the Charge collector
c.) Need to machine thick frames for the cathode and maybe GEM foils.
d.) Apply electrical insulation to HV distribution boards
e.) Need to mount GEM foils on the Qweak chambers.
SIS3610 I/O software
Objectives: a.) The first step will be to read 16 of the I/O input channel into a CODA data file.
b.) Display the 16 input channels on a GUI. Unfortunately, only 2 of the 16 will be used to read in the GEM output. The GEM output will transfer 128 hit/no hit signals to a single I/O channel in a serial fashion. The data from one I/O channel needs to be decoded according to the data structure described in Figure 8 and 9 of the VFAT manual.
c.) The final task will be to write a multiple trigger function so the I/O can be triggered by several different interrupt trigger signals and label those trigger signals.
Tasks:
Inject a signal into the I/O board input connector and use a Read function from the ROC to determine if the signal is high or low.
9/19/08
Detector work
TGEM assembled and ready for testing.
Need to assemble GEM comparison detector.
Made 2 thick frames for Qweak Cathode.
Get Fe source from TSO on loan for many months.(done)
Machine hole punch for Qweak charge collector holes(done)
Drill holes in Qweak chamber for Charge collector mounting
Measure sag of Qweak foils and cathode. Try using a string stretched across the frame
SIS3610 I/O software
Tasks:
Inject a signal into the I/O board input connector and use a Read function from the ROC to determine if the signal is high or low.
The SIS module latches input when a VME read is initiated
The command below sets a low constant output level on the SIS output which is then conencted to one of the SIS input line directly.
-> s3610WriteOutput(0,12288) value = 0 = 0x0
I initiated a read function and saw the following bits set
-> s3610ReadInput(0) value = 18464 = 0x4820
Now I zero the output and read call the read function
-> s3610WriteOutput(0,0) value = 0 = 0x0
-> s3610ReadInput(0) value = 2080 = 0x820
I am clearly turning bits on and off but there is some randomness to other channels. Perhaps terminationg the other channels in 100 Ohms will solve this problem.
Check
created subroutine in SIS3610 library to generate a single pulse according to an given bit pattern passed as a decimal number
void TDpulse(int id, unsigned int val) {
if((id<0) || (s3610p[id] == NULL)) { logMsg("s3610WriteOutput: ERROR : SIS3610 id %d not initialized \n",id,0,0,0,0,0); return; }
s3610p[id]->d_out = val; s3610p[id]->d_out = 0; return;
}
-> TDpulse(0,12288) value = 0 = 0x0
Now we tried to use
-> TDpulse(0,12288) value = 0 = 0x0 -> s3610ReadInput(0) value = 2080 = 0x820
2080 d = 100011000 b => channel 4,5 and 9 were high
The input did not change
I think we need to Latch it.
18464 d = 100100000100000 b
Read manual to see how to latch the input.
9/26/08
Detector Construction
Both GEM and TGEM proto type detectors have been assembled.
TGEM draws 200 A at 800 Volts Need to see why.
Ramp voltage at 1 V/sec. Saw discharges on scope when increasing HV at rate of 5 V/s.
Ramping up the voltage on TGEM and GEM at 2 V/sec.
GEM Drift HV (Volts) | GEM Drift current | AGEM foil HV (Volts) | GEM foil current | A
3800 | 0 | 3500 | 845 |
GEM Detector HV settings and Pulses
GEM Drift HV (Volts) | GEM Drift current | AGEM foil HV (Volts) | GEM foil current | AScope Picture |
3950 | 3650 | 882 | ||
3900 | 3600 | 870 | ||
3850 | 3550 | 859 |
TGEM Drift HV (Volts) | TGEM Drift current | ATGEM foil HV (Volts) | TGEM foil current | A
3600 | 3300 |
SIS310
1.) Get 100 Ohm resistors
2.) Get Bread board
10/3/08
The high current draw (> 1mA) of the TGEM on the power supply has forced us to switch to powering each PCboard GEM individually. We now have 4 HV channels hooked up with the ground floating on the top 2 GEM PCboards.
Vdrift = 3800, VGem = 3500, IDrift = 0, IGem = 842 A
Vdrift = 3850, VGem = 3550, IDrift = 0, IGem = 858 A
The GEM detector is working!
Lets check the TGEM detector