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ME1/1 Electronics Upgrade

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Presentation on theme: "ME1/1 Electronics Upgrade"— Presentation transcript:

1 ME1/1 Electronics Upgrade
S. Durkin Ohio State Mar. 2 , 2010 1

2 Digital CFEB – Designed for the SLHC
Deal with possible ME1/1 Rate Issues Replace Conventional ADC and SCA storage with Flash ADC and Digital Storage New System Deadtimeless, Removes rate worries Similar cost to old system Fairly Radical Idea – Couldn’t build 5 Years Ago 2

3 ME1/1 Linked to ME4/2 Upgrade?
New ME4/2 chambers need boards. Propose 514 new cards ME1/1 Old cards to populate ME4/2 Upgrade ME1/1 Handles highest particle flux Most important for momentum resolution. Removes ganged strips in ME1/1a DCFEBs were designed for SLHC Luminosity at SLHC unfortunately years away. A 1:1 swap with little immediate improvement and risks involved Don’t know rates yet First do no harm… 3

4 Digital CFEB part a Large Electronic System
ME1/1 Electronics Upgrade 514 DCFEBs OSU 0.5 FTE 72 DMBs 72 TMB (d.c.)TAMU+ULCA 1.0FTE 72 LVDB (+more power) 72 LVMB 1028 Cables (default skewclear) LVDB 2010 R&D Funding Build Roughly 1/6 of Present CMS Cathode System in Months Definitely Aggressive, Possible? Not with present manpower Engineers need >18 months to design and build preproduction board, and mass produce production boards (radiation tests…) Time has to be allocated to test boards as system 4

5 Digital CFEB R&D Board Designed to study linearity, noise, data transmission(there will be issues): - Coupling single ended Buckeye Amp to bipolar flash SCAs - Fiber output versus Skewclear output Noise on Analog-Digital boards can be problems - use old PC boards analog isolation Have started schematic and PC board layout Could have board in R&D board 4 months if no interruptions… Perform linearity tests, noise tests, and then Radiation testing in a beam 5

6 How long did present CFEB take to produce?
CFEB 2 R&D boards, 2 preproduction boards Test beams, Radiation tests (SEU rates, Total Dosage) CFEB production & testing October 2001-July 2003 2 Engineers/physicists , 2 Technicians, 1 Student this time we expect to only need 1 R&D board DCFEB Amplifier PC board noise protection copied from CFEB PC CFEB production & testing faster with 1/5 number of boards 6

7 Conclusion Schedule set by LHC shutdown not by physics, R&D, or manpower With additional engineer could produce R&D prototype by mid-summer Manpower needs to be found to design and build other boards and cables Time and physicists need to be found for board radiation tests as well as testing the resulting prototype boards as a system Risks: Nearly Impossible Schedule to Meet We are willing to attempt it (with additional manpower) Must assure ME1/1 new electronics as good as old electronics Cannot rush board and system tests 7

8 Backup Slides 8

9 First Step – Choose ADC ADC choice drives subsequent design considerations Interface between pre-amp and ADC Voltage/Power requirements Could impact LVDB design ADC choices:(8 ch, 12 bit, MSPS, Serial LVDS output) MAX1437 (Maxim) 1.8V supply, 1.4Vpp range ADC12EU050 (National) 1.2V supply, 2.1Vpp range AD9222 (Analog Devices) 1.8V supply, 2Vpp range ADS5281 (Texas Instr.) 3.3V analog, 1.8V digital, 2Vpp range 9

10 Issues with ADCs None are suitable drop-in replacements for SCA/ADC
All have differential inputs Limits on common mode Have internal input bias network Pre-Amp Single ended output Limited range of baseline level Designed to drive small capacitive load Pre-Amp/ADC Interface Mnfr. suggest transformer coupling (not an option for us) Amplifier to generate differential signal (requires 96 amplifiers) Direct couple single ended signal (common mode consequences) (level shifting/scaling) AC couple single ended signal (no level shifting, but still have biasing to consider) 10

11 Evaluation Boards Purchased Evaluation Boards for ADS5281 and AD9222
Basic Setup: Input Circuitry ADC + - DeSer Logic Analyzer Identify constraints/operation limits of ADC Direct Coupling Concerns Common Mode Data Sheet: Vcm = 1.5±0.05V How far from nominal? Baseline Level Range Digital output range is 2V But is linear range of common mode 2V? AC Coupling Concerns Same as direct coupling No worries with pre-amp baseline level But need to bias positive input 11

12 Constraints (ADS5281) ADC Constraints: Pre-Amp Constraints: Scaling:
Vcm -600mV < (IN+ + IN-)/2 < Vcm +300mV (1.8Vpp on IN+) (IN- -1V) < IN+ < (IN-+1V) (ADC output range) Pre-Amp Constraints: Baseline Level Currently 1.8V Max ~2.0V Min ~1.2V (maybe 1.0V) Drive Capability Small (few mA at best) Scaling: Scale down input Add digital gain on output Resistor divider 1.2k Vcm 1.2k 12

13 Digitize Amplifier Pulses
Connect CFEB to Evaluation Board: 50ns samples 13


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