Digital CFEB Prototype Plans 1 B. Bylsma, CSC Upgrade Workshop, Ohio State Univ., April 23-24, 2010 Ben Bylsma The Ohio State University.

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Presentation transcript:

Digital CFEB Prototype Plans 1 B. Bylsma, CSC Upgrade Workshop, Ohio State Univ., April 23-24, 2010 Ben Bylsma The Ohio State University

Overview of Design 2 B. Bylsma, CSC Upgrade Workshop, Ohio State Univ., April 23-24, 2010 pre SCA ADC + - ref 16 FPGA 12 bits muxmux 21 bits Chan- link 21:3 To DMB over Skewclear 280 Mbps eventLCTRelease Caps ~23.2µS L1A ~3.2µS Analog storage with L1A*LCT coincidence Analog storage - no coincidence Analog storage Digitization and Readout (20µs) Time Line: pre ADC + - ref 16 FPGA 8 pairs layers Serial Opt. Trnscvr To DMB over Fiber ~1-2.4Gbps GTX ADC ref 8 pairs 16 pairs Pipeline/FIFOs Serial LVDS Time Line: eventLCT9.2 to 19.2µSL1A 3.2 to 6.4µS FIFO Readout (6.6 – 12.8µs) Pipeline Digitization Latency xfer L1A·LCT CFEB DCFEB

DCFEB Prototype Options: DAQ Path 3 B. Bylsma, CSC Upgrade Workshop, Ohio State Univ., April 23-24, 2010 DAQ Path: Serial LVDS ADC + - ref 16 FPGA 8 pairs layers Serial Opt. Trnscvr To Network card ~1Gbps GTX ADC ref 8 pairs 16 pairs Pipeline/FIFOs pre Chan. Link Skewclear Conn. To DMB over Skewclear 280 Mbps 21 Interface options Interface Options:  Direct Coupling with scaling  AC Coupling with scaling  Single to Differential with Analog Devices ADA4950  Single to Differential with TI THS4524 Output Options:  Compatible with DMB  GbE MAC packets  High Speed Serial Link (Texas Instr. ADS5281) (Analog Devices AD9222) XC6VLX130T-FFG1156 Main Concerns:  Analog Signal Integrity  Long pipeline and SEU’s

DCFEB Prototype Options: Trigger Path 4 B. Bylsma, CSC Upgrade Workshop, Ohio State Univ., April 23-24, Triad signals pre comp layers 48 FPGA To TMB over Fiber Serial Opt. Trnscvr ~2.56Gbps GTX Skewclear Conn. 24 lvds pairs Comp. clock To TMB over Skewclear 16 To TMB over fiber Opt. Trnscvr ~1.28Gbps TLK2501 SER/DES Opt. Trnscvr ~1.28Gbps TLK2501 SER/DES Trigger Path: Output Options: A.Current Scheme with 7 cables 80 MHz B.Reduced Conductors 120 MHz 160 MHz C.48 bit Channel Links (not represented) 280 Mbps D.TLK2501’s and Optical Transcievers 2X1.28 Gbps E.GTX in FPGA and Optical Transciever 2.56 Gbps (Multiple rates) Other Notes: Comparator Clock Path Space for output connectors/compatibility FPGA I/Os XC6VLX130T-FFG1156