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Transcript of 1 Electronics Simulation in the Photon Transport Monte Carlo Preamp model Receiver/discriminator...
![Page 1: 1 Electronics Simulation in the Photon Transport Monte Carlo Preamp model Receiver/discriminator circuit CAFÉ driver circuit model Examples Summary January.](https://reader036.fdocuments.net/reader036/viewer/2022062511/5519a2cf550346d8608b45b6/html5/thumbnails/1.jpg)
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Electronics Simulation in thePhoton Transport Monte Carlo
• Preamp model
• Receiver/discriminator circuit
• CAFÉ driver circuit model
• Examples
• Summary
January 31, 2005 – last update: Jan 30
Matthew Jones/Riei Ishiziki
Purdue University
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Preamp Model
• So far, the effect of the preamp has been ignored, although some degradation in rise-time was included. This was just a wild guess.
• Need a good preamp model to relate anode charge to output of ADC…
• Particularly important for large pulses.• Best studied using SPICE simulation of preamp
circuit.• Useful check of schematics for the NIM paper.
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Preamp ModelModel for PMT driving preamp
Model for PMT driving 50 load
Preamp
(See CDF Note 5358)
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Preamp Model
• Important to validate the simulation by comparing with real preamp.
• Input pulse:– Gaussian, 1.5ns width, typically 0.01 nC– 0.01 nC corresponds to 2080 p.e. when the
PMT gain is 3x104
• Allows comparison with preamp checkout measurements performed with charge injector.
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Preamp Model
Response to 0.01 nC pulse
50 load, 50 mV/div
preamp, 50 mV/div
output, 500 mV/div
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Preamp Model
Response to 0.05 nC pulse
50 load, 200 mV/div
preamp, 200 mV/div
output, 1 V/div
Soft saturationproperly modeled
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Preamp Model• Gain response parameterized as in
CDF Note 5362:
High gain region
Soft saturation
Hard saturation
27 ±C
37 ±C
47 ±C
57 ±C
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Preamp Model
• Measured parameters:
• Simulation:
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Preamp Model• Comparison of gain parameters with
measured distributions:Small signal
differential gainLarge signal
differential gain
Gain switchingthreshold
Width of gainswitching region
SPICE model
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Preamp Model• Comparison of node voltages:
Small differences are not likely to
affect small signal gain.
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Preamp Model• Probable unknowns:
– Supply voltages in the detector• Measure them next time the plugs are open
– Temperature in the detector– No simulation of parasitic capacitance– Parameters for gain switching diode model
• Qualitative behavior seems reasonable.• Small signal response agrees well with
measurements and should be adequately described.
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Preamp Model
• SPICE3 simulation now interfaced with photon transport Monte Carlo:
Response to 1 MIP through bar at z=0.
This is an important achievement!
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Receiver/discriminator model
Preampsub-circuit
Input to AD96687 comparator
AD8131 model
PMT + base model
Input to CAFÉ driver
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CAFÉ Driver Circuit Model
Input pulseCAFÉ model
ECL output model
Gate
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TOAD Electronics
• Still should perform more validation:– Compare with production TOAD board node
voltages– Still not simulating signal cable (22 m
attenuation length) and RF transformer– Need to determine phase of CAFÉ clock– Include parasitic capacitances on TOAD and
connector inductances to CAFÉ card
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Software Interface
• Interfaced with photon transport MC:– PMT class constructs SPICE3 model for current pulse
at the anode.– System call to invoke SPICE3 with circuit models– Output vectors read from binary file– Currently stored as non-persistent TGraph objects
• Simulation is fast (few seconds) compared with photon propagation
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Example: 1 MIP at z=100 cmVoltage pulse atpreamp input
Voltage pulse atpreamp output
Discriminator input
CAFÉ driver input
CAFÉ driver gate
Current into CAFE
about 2000 ADC counts
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Another example:• Two tracks hit simultaneously at z=100 cm
and z=-50cm:
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Yet another example:• Two tracks in different 132 ns bunch
crossings:
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Electronics Simulation• It is now possible to study:
– Absolute scale of discriminator threshold– Functional form of time slewing correction– ADC bias due to multiple hits– Baseline shifts from hits in earlier bunch
crossings (luminosity dependence of ADC)– ADC response to monopoles, MIP’s, etc.
• Limiting factors will probably come from the PMT parameters (photocathode sensitivity, absolute gain) and scintillator.
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Summary
• SPICE3 models:– Preamp: good shape now– Discriminator: should be okay
• Use simulation instead of parameterized model?• Need to check threshold circuit in more detail.
– CAFE driver: Predicted ADC counts have the right order of magnitude!
• Still need to work out the phase of the CAFÉ integration gate• Now we will have to subtract pedestals in the simulation
• Real limitation probably comes from things we can’t measure (PMT and scintillator properties).