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UW Engineering DOM Studies. Kael Hanson University of Wisconsin – Madison LBNL DOM Workshop 23 July 2003. What Testing was Done?. Guiding principle “Attempt to carry out measurements and see how DOM behaves as a data acquisition platform then follow our noses.” Initial measurements desired:
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UW Engineering DOM Studies Kael Hanson University of Wisconsin – Madison LBNL DOM Workshop 23 July 2003
What Testing was Done? • Guiding principle “Attempt to carry out measurements and see how DOM behaves as a data acquisition platform then follow our noses.” • Initial measurements desired: • Phototube gain • Peak-to-valley • Phototube noise (not yet /w/ DOM) • These measurements implied a priori characterization of DOM analog F.E. • Summary of measurements captured in Engineering DOM Tests document. LBNL DOM Workshop
DOMs Under Test (DUTs) • UW now has 12 DOM-MBs: • 5 in ‘active’ DOMs (XE3P0001-0005) • 6 in DOMs awaiting testing • 1 DOMMB in use by NK for HV base tests • 2 DOMMBs returned to LBNL because of hardware problems: • 1 flash RAM failure • 1 CPLD failure (could not program) LBNL DOM Workshop
DUT Configurations • Currently all 4 above DOMs running in chest freezer at PSL • XE3P0003 is in freezer at Chamberlin undergoing analog tests • Full DOM Work-in-Progress table maintained by Jim Hoffman LBNL DOM Workshop
ATWD Pedestal Study • Purpose • Monitor system electronic noise • ATWD gain calibration • Procedure • Set ambient temperature to -20 ºC, … • Set FE bias to various levels • Acquire CPU-triggered ATWD shots LBNL DOM Workshop
FE Gain – ATWD Channel 0 Clamping amplifier in ATWD ch0 introduces nonlinearity in analog FE! LBNL DOM Workshop
FE Gain – ATWD Channel 1 No clamping amp – linear but ATWD overflows around 1 V – incorrect ATWD tuning parameters here or intentional behavior? LBNL DOM Workshop
FE Pedestal/Gain Calibration Proposal • If you take delta between 5th and 1st curves on previous plot, you would naively expect a flat line. • Resulting line is not flat – features persist – do we need separate gain calibration for each ATWD bin? Is this subscript necessary? I LBNL DOM Workshop
Pedestal Noise – ISEG DOM 718F PMT HV turned off! max(abs(wfd-ped)) LBNL DOM Workshop
ATWD Pedestal Noise (2) • HV base turned off but ISEG base (718F) just disables HV – power not turned off to base. Disconnecting HV ribbon lowers noise somewhat. • Oddly enough, Ch1 shows about same level of noise – would expect 4x less scaling with op-amp gain. LBNL DOM Workshop
Pedestal Noise – ISEG DOM 7DAC (ISEG base /w/ no ground wire) LBNL DOM Workshop
Pedestal Noise – EMCO DOM 71DB LBNL DOM Workshop
Floating Baseline? • Tried to test noise with HV on/off but run into problem of wobbling ATWD baseline and odd undershoot at pulse beginning (RHS). • (See next page) overall stability of pedestal on 2 hr timescale OK /w/ HV off but HV on causes large rms and drift. LBNL DOM Workshop
ATWD Drift vs. Time NO HV HV ON Approx 2 hr. run time LBNL DOM Workshop
Summary on Pedestal Testing • Significant noise in FE seems due to HV base (no noise seen in DOMMB tests?). Of options EMCO/ISEG, latter produces clearly visible hash in FE while former is clean. • Clamping amp nonlinearity significant. Can we tune this away or are we stuck with it? Do we really want to put a clamping amp on any more channels? • ATWD channel 1 overflows at about 1 V input (50 pe) – again, is this a tuning problem? • Is ATWD FE characterization simply a pedestal fingerprint or do we need more calibration knobs such as individual ATWD bin pedestals and gains. LBNL DOM Workshop
Pulser Tests • Purpose • Calibrate op-amp gains • SPE/MPE discriminator studies • Procedure • Disable HV • Set internal pulser amp to 1/3 pe, 1 pe, … • Do discriminator sweep (FSCAN) • Acquire pulser waveforms LBNL DOM Workshop
Pulser Discriminator LBNL DOM Workshop
Pulser Waveforms • Unable to acquire pulser waveforms with synchronous pulser trigger – advertised in FPGA register level docs but either I called incorrectly or problem at FPGA • This type of trigger – synch with FE pulser, LED pulser, LED flasherboard required for some tests. LBNL DOM Workshop
SPE Discriminator Scan – PMT Pulses Input (71DB) LBNL DOM Workshop
SPE Waveforms CH0 CH2 CH1 LBNL DOM Workshop
SPE Waveforms (2) • Presence of HV again causes drift of front-end baseline. • This may be due to ATWD overvoltage • ATWD channel 1 can saturate • ATWD channel 2 seems OK – small drift but probably functional • Why is ATWD channel 0, protected by clamping amplifier, having problems? • Current situation with drifting baselines makes analysis of ch0/ch1 waveforms very tricky – hope we can alter the clamping voltage to workaround – need information on this system. LBNL DOM Workshop
Gain and P/V Measurement – DOM 0001-3C62-71BD LBNL DOM Workshop
Cheap P/V & Gain Analysis • Used ATWD ch2 because of baseline wobble – gain of this channel is 2/3× so had to crank HV up to 1600, 1800, 2000 V. • Clear P/V appears at 2000 V (apx. 2.2:1) • Assuming ATWD gain is 1 mV/count, FE gain is 2/3×, the peak occurs around 40 mV – resulting in gain of about 5 × 107 – this just makes target! LBNL DOM Workshop
Signal Frequency Analysis LBNL DOM Workshop
Conclusions • Noise on ISEG HV base is potential trouble – analog tests indicate that level is less than 1 mV p-p but really need to understand characteristics after FE op-amps. • Several issues with ATWD-captured waveforms: • ‘startup’ bug: 1st sample after several seconds idle is corrupted – this is more annoying than problematic • Crosstalk from clock when mux’ed into channel 3 – OK once AG explained the problem and the fix. However, crosstalk from ch0 to ch1, ch2 potential problem. Do we test? • Clamping amplifier causes log rolloff of channel 0 • Saturated ATWD inputs cause sizable baseline drift • ATWD channel 0 gain seems a bit high – 16x implies approx 100 mV spe, about 100 ATWD counts. Could probably reduce gain by factor of 2, perhaps up to 4. LBNL DOM Workshop