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19 March 2005 LCWS 05 M. Breidenbach 1 SiD Electronic Concepts SLAC –D. Freytag –G. Haller –J. Deng –mb Oregon –J. Brau –R. Frey –D. Strom BNL –V. Radeka.

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Presentation on theme: "19 March 2005 LCWS 05 M. Breidenbach 1 SiD Electronic Concepts SLAC –D. Freytag –G. Haller –J. Deng –mb Oregon –J. Brau –R. Frey –D. Strom BNL –V. Radeka."— Presentation transcript:

1 19 March 2005 LCWS 05 M. Breidenbach 1 SiD Electronic Concepts SLAC –D. Freytag –G. Haller –J. Deng –mb Oregon –J. Brau –R. Frey –D. Strom BNL –V. Radeka

2 19 March 2005 LCWS 05 M. Breidenbach 2 Overview SLAC/Oregon/BNL is developing a read out chip (ROC) for the Si-W calorimeter. –Highly integrated into structural design – bump bonded to detector –1024 pixels / ROC ---Thus working name KPiX –Rough concept for “DAQ” strategy. Similar architecture with reduced dynamic range should work for Si strips. 2048 pixels / ROC Similar architecture should work for HCal and muon system. Will not work for very forward systems.

3 19 March 2005 LCWS 05 M. Breidenbach 3 Concept

4 19 March 2005 LCWS 05 M. Breidenbach 4 Signals –<2000 e noise –Require MIPs with S/N > 7 –Max. signal 2500 MIPs (5mm pixels) Capacitance –Pixels: 5.7 pF –Traces: ~0.8 pF per pixel crossing –Crosstalk: 0.8 pF/Gain x Cin < 1% Resistance –300 ohm max Power –< 40 mW/wafer  power cycling (An important LC feature!) Provide fully digitized outputs of charge and time on one ASIC for every wafer. Electronics requirements

5 19 March 2005 LCWS 05 M. Breidenbach 5 Wafer and readout chip

6 19 March 2005 LCWS 05 M. Breidenbach 6 Detector Layout Real Thing

7 19 March 2005 LCWS 05 M. Breidenbach 7

8 19 March 2005 LCWS 05 M. Breidenbach 8 Document #Date Effective 12/15/2004 Prepared by(s)Supersedes Breidenbach/Freytag/Hal ler/Milgrome None Project Name Subsystem/Office Document Title Conceptual Design of W-SI Front-End ASIC Version 1.3 Conceptual Design of W-SI Front-End ASIC There is an 18 page technical document, now in its 4 th major revision for register assignments, etc for the cold bunch structure.

9 19 March 2005 LCWS 05 M. Breidenbach 9

10 19 March 2005 LCWS 05 M. Breidenbach 10 Cal strobe gated by 1024 long SR. Pixel pattern arbitrary.

11 19 March 2005 LCWS 05 M. Breidenbach 11 Event discriminator implemented as limiter followed by discriminator. Limiter holds off resets, permitting longer integration time for discriminator and data hold. Discriminator threshold selected from either of two ROC wide DAC’s.

12 19 March 2005 LCWS 05 M. Breidenbach 12 Pulse “Shaping” Take full advantage of synchronous bunch structure: –Reset (clamp) feedback cap before bunch arrival. This is equivalent to double correlated sampling, except that the “before” measurement is forced to zero. This takes out low frequency noise and any integrated excursions of the amplifier. –Integration time constant will be 0.5 – 1 μsec. Sample synchronously at 2 – 3 integration time constants. –Time from reset 1 – 3 μsec, which is equivalent to a 1 – 3 μsec differentiation. Noise: ~1000 e - for ~ 20 pF. (100 μA through input FET).

13 19 March 2005 LCWS 05 M. Breidenbach 13 Power

14 19 March 2005 LCWS 05 M. Breidenbach 14

15 19 March 2005 LCWS 05 M. Breidenbach 15

16 19 March 2005 LCWS 05 M. Breidenbach 16 Data Flow - ~ 4 Mb/train from backgrounds…

17 19 March 2005 LCWS 05 M. Breidenbach 17 Comments The basic architecture should work with all the low occupancy sub- systems. –Including Tracker, EmCal, HCal, and muon system. –It does not address VXD issues – presumably CMOS to be developed – or the completely occupied Very Forward Calorimeters. –A variant might work in the forward regions of the tracker and calorimeters. The architecture is insensitive to the bunch separation within a train. The cost of a mask set is high, so development will be with (probably) 8 x 8 subsets instead of the 32 x 32 array. The unit cost of a large number of chips seems fine - <~ $40. Substantial design and simulation is done on EMCal Readout chip. Layout is progressing. ~No work done on anything else.

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