SCIPP R&D on Long Shaping- Time Electronics SLAC SiD Workshop October 26-29, 2006 Bruce Schumm.

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Presentation transcript:

SCIPP R&D on Long Shaping- Time Electronics SLAC SiD Workshop October 26-29, 2006 Bruce Schumm

Faculty/Senior Vitaliy Fadeyev Alex Grillo Bruce Schumm Abe Seiden Post-Docs Jurgen Kroseberg Students Greg Horn Gabriel Saffier- Ewing The SCIPP/UCSC ILC HARDWARE GROUP Lead Engineer: Ned Spencer Technical Staff: Max Wilder, Forest Martinez-McKinney (Students are undergraduates from physics)

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 of 2000 channel chip w/ bump bonding (should be solved by KPiX development)

~1  s shaping time; analog readout is Time-Over-Thresh Process: TSMC 0.25  m CMOS The LSTFE ASIC

1/4 mip 1 mip 128 mip Operating point threshold Readout threshold

Electronics Simulation Detector: 167 cm ladder, 50  m pitch, 50  m readout Analog 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 10  m) Essential tool for design of front-end ASIC

FIFO (Leading and trailing transitions) Low Comparator Leading-Edge-Enable Domain Proposed LSTFE Back-End Architecture Clock Period  = 400 nsec Event Time 8:1 Multi- plexing (  clock = 50 ns)

DIGITAL ARCHITECTURE: FPGA DEVELOPMENT Design permits real-time accumulation and readout of hit information, with dead time limited only by amplifier shaping time

FPGA-based control and data- acquisition system INITIAL RESULTS LSTFE-2 chip mounted on readout board

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 to V thresh < 10% of min-i Q in = 0.5 fC Q in = 3.0 fC Q in = 2.5 fC Q in = 2.0 fC Q in = 1.5 fC Q in = 1.0 fC

Noise vs. Capacitance (at  shape = 1.2  s) Loaded with Capacitor Measured dependence is (noise in equivalent electrons)  noise = *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

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”.

LSTFE2 The LSTFE2 is currently under development; submission expected by end of year Retain  s shaping time Further S/N optimization (still geared towards long ladders “Off” state feedback to achieve power cycling channels, with multiplexing of compar- ator outputs (pad geometry)

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