Dirk Wiedner 16 th February 2012. 2 OT/ITCALO MUON RICH1/TT RICH2 +TFC system.

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Presentation transcript:

Dirk Wiedner 16 th February 2012

2 OT/ITCALO MUON RICH1/TT RICH2 +TFC system

 1.1 MHz readout O(6000) links ◦ +40 MHz L0 trigger readout O(2000) links  1.6 Gb/s serializer + laser driver  VCSEL ◦ ULM photonics ◦ SMA 850nm MM  Or Agilent 12-way transmitter HFBR-772B  Agilent 12-way receivers HFBR-782B ◦ TLK2501 de-serializers  MM-fiber 125/50 μm ◦ FO-networks, DRAKA etc.  TFC system SM 160 Mb/s 3

 40 MHz for the entire detector ◦ O(12000) links  3.2Gb/s t.b.d. ◦ Data + TFC + ECS ◦ FPGAs with fast link I/O in low rad regions  Versatile link ◦ Transceiver 850nm MM ◦ Dual transmitter 850nm MM ◦ Transceiver 1310 nm SM (anyone?) 4

5 o Transmitter Optical Sub-Assembly (TOSA) o Laser Diode Driver (LDD) o Limiting Amplifier (LA) o TransImpedance Amplifier (TIA) o PIN photodiode

 Common R&D almost complete ◦ VTRx and later VTTx ◦ Optical tests ◦ Mechanical tests ◦ Irradiation of active and passive components ◦ Environmental test ◦ System tests (BER etc.)  Some tests exceed LHCb needs ◦ …but might proof useful 6

7 Device Channel Number Alan Prosser et al.

 Fiber from Corning and Draka ◦ Irradiated ◦ Pull test  John Wilson et al. 8

 TI laser driver ◦ ONET1101L ◦ 10 krad/h ◦ Ok. At 900 krad  4-channel QSFP ◦ AFBR-79Q4Z ◦ 10 krad/h ◦ Errors from 75 krad 9 Annie Xiang et al.

 TI laser driver ◦ ONET1101L ◦ 10 krad/h ◦ Ok. At 900 krad  4-channel QSFP ◦ AFBR-79Q4Z ◦ 10 krad/h ◦ Errors from 75 krad 10 Annie Xiang et al.

 VTRx jitter measurements ◦ VTRx 131:  ONET1101L & FP TOSA ◦ Rx side measurement ◦ Temperature testing of VTRx – Eyes 11 Jan Troska

1212

 Common R&D almost complete ◦ VTRx and later VTTx ◦ Optical tests ◦ Mechanical tests ◦ Irradiation of active and passive components ◦ Environmental test ◦ System tests (BER etc.)  Some tests exceed LHCb needs ◦ …but might proof useful  Next steps ◦ Tendering ◦ Custom R&D 13 +user test systems

 Many Institutes started R&D ◦ OT example:  Altera FPGA based front end at HD (Christian F.)  Readout board at Dortmund (Stefan S.)  Actel FPGA based front end at NIKHEF (Tom S.) ◦ TELL40  Marseille  Lausanne  Important to proceed together 14

 TOSA MM:  ROSA MM: 1000  VTTx MM: 5000 ?  VTRx MM: 1000  12Rx MM: 1000 ?  Fiber ??  Specification  Market survey  Qualification 15

 Detector specific versatile link components and architecture ◦ VTRx and/r VTTx PCB ◦ Optoblock ◦ Assembly vs. reference design  Low power VTRx  10Gb/s opto engine  Emergency technologies ◦ Si photonics … 16

 LHCb 40 MHz upgrade ◦ extra bandwidth ◦ Higher radiation levels  Versatile link project ◦ 5 – 10 Gb/s optical link system ◦ Common R&D achieved ◦ Most tests concluded  LHCb versatile link next step ◦ System tests by users ◦ Tendering ◦ Specific implementations 17