scipp r&d on long shaping- time electronics slac sid workshop october 26-28, 2006 bruce schumm
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![Page 1: SCIPP R&D on Long Shaping- Time Electronics SLAC SiD Workshop October 26-28, 2006 Bruce Schumm](https://reader031.vdocuments.us/reader031/viewer/2022032704/56649d615503460f94a42999/html5/thumbnails/1.jpg)
SCIPP R&D on Long Shaping-Time Electronics
SLAC SiD WorkshopOctober 26-28, 2006
Bruce Schumm
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Faculty/Senior
Vitaliy FadeyevAlex Grillo
Bruce SchummAbe Seiden
Post-Docs
Jurgen Kroseberg
Students
Greg HornGabriel Saffier-
Ewing
The SCIPP/UCSC ILC HARDWARE GROUP
Lead Engineer: Ned Spencer
Technical Staff: Max Wilder, Forest Martinez-McKinney
(Students are undergraduates from physics)
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Alternative: shorter ladders, but better point resolution
The LSTFE approach would be well suited to use in short-strip applications, and would offer several potential advantages relative to other approaches
• Optimized for LC tracking (less complex)
• More efficient data flow
• No need for buffering
Would require development of2000 channel chip w/ bump bonding (should be solved by KPiX development)
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~1 s shaping time; analog readout is Time-Over-Thresh
Process: TSMC 0.25 m CMOS
The LSTFE ASIC
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1/4 mip
1 mip
128 mip
Operating point threshold
Readout threshold
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Electronics SimulationDetector:
167 cm ladder, 50 m pitch, 50 m readoutAnalog Measurement:
Employs time-over-threshold with 400 ns clock period; lookup table provides conversions back into analog pulse height (as for actual data)
RMS
Gaussian Fit
Detector Resolution (units of 10m)Essential tool for design of front-end ASIC
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FIF
O (L
eadin
g and
trailin
g transition
s)Low Comparator Leading-Edge-Enable Domain
Li
Hi
Hi+4
Hi+1
Hi+2
Hi+3
Hi+5
Hi+6
Li+1
Li+2
Li+3
Li+4
Li+5
Li+6
Proposed LSTFE Back-End Architecture
Clock Period = 400 nsec
EventTime
8:1 Multi-
plexing (clock = 50 ns)
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DIGITAL ARCHITECTURE: FPGADEVELOPMENT
Design permits real-time accumulation and readout of hit information, with dead time limited only by
amplifier shaping time
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FPGA-based control and data-acquisition system
INITIAL RESULTS
LSTFE-2 chip mounted on readout board
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Comparator S Curves
Vary threshold for given input charge
Read out system with FPG-based DAQ
Get
1-erf(threshold)
with 50% point giving response, and width giving noise
Stable behavior toVthresh < 10% of min-i
Qin= 0.5 fC
Qin= 3.0 fCQin= 2.5 fC
Qin= 2.0 fCQin= 1.5 fC
Qin= 1.0 fC
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Noise vs. Capacitance (at shape = 1.2 s)
Loaded with Capacitor
Measured dependence is (noise in equivalent electrons)
noise = 375 + 8.9*C
with C in pF.
Connected to Ladder
Noise is approximately 30% worse; are currently exploring long shaping-time shielding requirements
Observed
Expected
1 meter
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Preamp Response
Power Control
Shaper Response
Power Cycling• As designed: Achieve 40 msec turn-on due to protection diode leakage• Injecting small (< 1nA) current: Achieve 0.9 msec
LSTFE2 will incorporate active feedback to maintain bias levels of isolated circuitry when chip is “off”.
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LSTFE2
The LSTFE2 is currently under development; submission expected by end of year
• Retain 1.0-1.5 s shaping time
• Further S/N optimization (still geared towards long ladders)
• “Off” state feedback to achieve power cycling goal (< 1 msec switch-on)
• 64-128 channels, with multiplexing of compar-ator outputs (pad geometry)
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SCIPP Simulation Studies for the SiD Design
SLAC SiD WorkshopOctober 26-28, 2006
Bruce Schumm
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Personnel: B.S. plus three junior undergradsLori Stevens (worked over summer)Tyler Rice (work over summer)Chris Meyer (new)
We are:• continuing the study of the use of Tim Nelson’s AxialBarrelTracker as a clean-up algorithm (Lori, Tyler)• trying to implement and verify new tracking algorithms (which ones?) - Chris
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AxialBarrelTracker Studies
• Still “cheating”: eliminating all hits from the 95% of tracks that originate within 2cm of origin
• Trying to do full classification of remaining hits (non-prompt tracks, loopers, backgrounds, etc.)
• Looking for remaining non-prompt tracks with pt>0.75 GeV/c and |cos| < 0.5
• Have verified that circle-fit Chisq behaves like a chisq (tracking conventions?); use chisq cut, but not very effective
• Require 4 or more hits; found track can have at most one hit from a different MCTRUTH source; otherwise labeled as fake
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263 “findable” tracks
263 “findable” tracks
263 “findable” tracks
e+e- qq at sqrt(s) = 500
GeV