Power Supply of Front-End Electronic in RICH/TORCH Upgrade Rui Gao, University of Oxford LHCb Upgrade Electronics Meeting 14 th April, 2011, CERN.

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Presentation transcript:

Power Supply of Front-End Electronic in RICH/TORCH Upgrade Rui Gao, University of Oxford LHCb Upgrade Electronics Meeting 14 th April, 2011, CERN

RICH/TORCH Upgrade FE Electronics New devices: Hamamasu R7600/R11265 MaPMT, in RICH, and MCP in TORCH, Binary readout / TOF measurement, Higher readout rate, un-triggered readout, Use of GBT chipset, Use of DC-DC convertor. Cabling would be very similar to current RICH, Would re-use the current power supply module for RICH upgrade, same power supply for TORCH. 2 LHCb Upgrade Electronics, CERN, 14/04/2011

RICH Front End 64ch MaPMT Slave : 2x MAROC3 FPGA 16 e-port link to Master Master: 16 e-port 1xFPGA GBT chipset Scalable GBT transmitter DC-DC Convertor 2 MaPMT per slave 3 LHCb Upgrade Electronics, CERN, 14/04/2011 1/2/4/8/16 Slaves per Master DetectorMaPMTSlaveMasterGBT RICH RICH

Devices and Assumptions Hamamatsu R7600/R ch MaPMT, The MAROC3 64-ch, 250mW, Rad-hard or tolerant FPGA, 300mW, Discretes, 100mW per board, GBT user bandwidth 2.5~3.2Gbps, GBTX-1.5W, GBLD – 380mW, GBTIA-123mW, GBTSCA – unknown. Scalable GBT interface, primary GBT has both trans. and recv., add-on GBT has trans. only. Assumption Ave. Occupancy 1% ! 4 LHCb Upgrade Electronics, CERN, 14/04/2011

RICH Voltages and Currents Hopefully never need 3.3v, The Actel rad-hard ProASIC3E use 1.5v core voltage, no need for 1.2v, Radiation not so bad – comments? VoltageDeviceEst. Current (mA) Slave/Master 1.2vFPGA (core), e-port drive & receiver 100 / vGBTX None / vFPGA I/O, GBTIA, GBLD, GBTSCA, Flash RAM, MAROC3 400 / v“Legacy” device s, FPGA I/O 20 / 20 5 LHCb Upgrade Electronics, CERN, 14/04/2011

RICH Power Consumption by Device Slave – 1379mW, Master 3084mW 6 LHCb Upgrade Electronics, CERN, 14/04/2011

RICH Power Consumption by Voltage Logic power only. 7 LHCb Upgrade Electronics, CERN, 14/04/2011

RICH Summary 16MaPMT (1024ch)/ GBT, need simulation results, RICH1 1kW, RICH2 2.2kW 4 Supply voltages, minimum 2. 8 LHCb Upgrade Electronics, CERN, 14/04/2011

TORCH Current baseline design 1cm-thick quartz plate at z=12m Rectangular quartz block: 7.44m wide in x (124 photodetectors each side) 6.12m high in y (102 photodetectors each side)... for a total of 452 photodetectors Square hole for beampipe in the center (26cm x 26cm) with mirrored edges Mirrored surfaces have reflectivity 0.9 Beampipe hole Quartz block Quartz standoff (detail on next slide) 7.44m 6.12m Still proof-of-concept work: 9 LHCb Upgrade Electronics, CERN, 14/04/2011

TORCH Front End MCP Slave : 2x TDC FPGA e-port link to Master Master: 4x e-port 1xFPGA 2 GBT chipsets Scalable GBT transmitter DC-DC Convertor 4 Slaves per MCP 198 MCP 792 Slaves 198 Masters GBT 10 LHCb Upgrade Electronics, CERN, 14/04/2011

Proof of Concept TORCH Front End 11 LHCb Upgrade Electronics, CERN, 14/04/2011

Devices and Assumptions Burle-Photonis XP85022 or customised 128x8ch MCP, The “Perfect TDC” 128-ch with analogue input stage (amplifier and discriminator), 6ps, 2W, Rad-hard or tolerant FPGA, 300mW, Discretes, 200mW per board, GBT user bandwidth 3.2Gbps, GBTX-1.5W, GBLD – 380mW, GBTIA-123mW, GBTSCA – unknow. Scalable GBT interface, primary GBT has both trans. and recv., add-on GBT has trans. only. Assumption Ave. Occupancy 0.5% ! 12 LHCb Upgrade Electronics, CERN, 14/04/2011

TORCH – Voltage and Current VoltageDeviceEst. Current (mA) Slave/Master 1.2vFPGA (core), e-port drive & receiver 100 / vGBTX x 2 None / vFPGA I/O, GBTIA, GBLD, GBTSCA, Flash RAM, TDC 1750/ v“Legacy” device s, FPGA I/O 20 / 20 Hopefully never need 3.3v, TDC may need “clean” analogue 2.5v, The Actel rad-hard ProASIC3E use 1.5v core voltage. 13 LHCb Upgrade Electronics, CERN, 14/04/2011

Power Consumption – by Device Slave – 5641mW, Master – 5794mW 14 LHCb Upgrade Electronics, CERN, 14/04/2011

Power Consumption – by Voltage Logic power only 15 LHCb Upgrade Electronics, CERN, 14/04/2011

Summary - TORCH 198 MCP – FE assembly, each gives 30W, 6.1kW in total 400 GBT, 4 Supply voltages, min 2. Simulation needed, According to Mat’s simulation result: 9GBT/MCP, 50W/ MCP, 1800 GBTs, 10kW. 16 LHCb Upgrade Electronics, CERN, 14/04/2011

Thanks!

Backup Slides 18 LHCb Electronics Upgrade, CERN, 14/04/2011

Commercial Rad Hard DC-DC Module An example: VPT-0510S ▫3.5-7v input output, 33w max ▫84-94% efficiency ▫100krads 19 LHCb Electronics Upgrade, CERN, 14/04/2011