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TGC LVL1 Trigger System Link C.Fukunaga/Tokyo Metropolitan University TGC electronics group

PS pack. ~15m. ~90m. Patch Panel (Bunch X ID). Slave Board (Low pT ID). Hi-pT Board (High pT ID). Sector Logic. USA15. On detector. TGC LVL1 Trigger System Link C.Fukunaga/Tokyo Metropolitan University TGC electronics group. System link

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TGC LVL1 Trigger System Link C.Fukunaga/Tokyo Metropolitan University TGC electronics group

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  1. PS pack ~15m ~90m Patch Panel (Bunch X ID) Slave Board (Low pT ID) Hi-pT Board (High pT ID) Sector Logic USA15 On detector TGC LVL1 Trigger System LinkC.Fukunaga/Tokyo Metropolitan UniversityTGC electronics group System link • Data transfer for EC muon LVL1 trigger processing is important because system is sliced to four parts in two areas • On detector • In USA15 cavern • Data Link for DAQ between SB and Star Switch 14/6/2000 End Cap Muon Trigger Review at CERN

  2. Trigger Data Flow Optical fibre 20 bit G-Link(90m) 9 bit LVDS (15m) 14/6/2000 End Cap Muon Trigger Review at CERN

  3. Long Distance LVDS link • For Trigger data of ~10 bit data transfer between SB and Hi-pT, we plan to use differential LVDS signal protocol. • Length ~ 15m • Bandwidth ~10bit * 40MHz =50MByte/s • 10 bit data are serialized at the output of an SB and deserialized at Hi-pT input • Problems foreseen: • Serializer/deserializer chips • Long distance transfer • Magnetic field • Experience of LVL1 Cal. Group is very helpful for us 14/6/2000 End Cap Muon Trigger Review at CERN

  4. Issues for LVDS • 10 bit Serializer/Deserializer from National Semiconductor Co. DS92LV1021/1210 (16-40 MHz) will be ideal one for our purpose as LAr Group does. • They pointed out, however, the chipset has not been easy to use; careful board layout is needed, it must be well separated from the power-supply lines to protect noise pick up. • There is an evaluation board recently released for this chipset from the company. • With this board, we check the chipset with long distance signal xfer. • New 10 bit Serializer/Deserializer DS92LV1025/1224 chipset but works for 40-66 MHz is also released • Since the pin allocation and size are the same as present ones, we can check this with the same test setup. 14/6/2000 End Cap Muon Trigger Review at CERN

  5. Issues for LVDS (cont.) • Long distance driving of LVDS (~15m) LAr group has envisaged high frequency losses of cable over long distance. Losses cause jitter at Receiver side (> 100ps) . For reduction this value, we may need some compensation circuits. • Magnetic Field 500-1KGauss field is foreseen, it will make problems owing to • Small driving currents of LVDS • Nature of differential signal transfer (two reciprocal currents in a pair) 14/6/2000 End Cap Muon Trigger Review at CERN

  6. G-Link for Hi-pT and Sector Logic • G-Link (Gigabit Rate Transmission Protocol) is developed by Hewlett-Packard. • Serializer/deserializer with transceiver/receiver chipset HDMP-1022/1024 by HP is useful for data transfer from a Hi-pT board to Sector Logic in USA15 • Length ~90 m • Bandwidth: 20 bit*40 MHz ~ 0.8 Gbyte/s (Gbit Ethernet) 14/6/2000 End Cap Muon Trigger Review at CERN

  7. G-Link Structure HP HDMP-1022 VCSEL (LASER EMITTER) HP HDMP-1024 Optical Fibre 14/6/2000 End Cap Muon Trigger Review at CERN

  8. Issues • VCSEL & Optical fibre • VCSEL (Vertical Cavity Surface Emitting Laser) • High Band Width (1-10Gb/s) • Surface emitter – good connectivity with optical fibre • Low divergence, circular beam profile from VCSEL is appropriate for multimode fibre • High output power/Low power consumption • Yet a few products for 850nm light emission (short wave) • Optical fibre • Recent development of GB/10GB Ethernet makes easier to select appropriate multimode fibres • for IEEE 802.3z 1000BASE-SX • Core/Outer 50/125um, Graded Index 14/6/2000 End Cap Muon Trigger Review at CERN

  9. Schedule • LVDS link • Till summer test with an evaluation board will be completed including compensation circuits issues (Evaluation board is new product of National – it takes 2 months for delivery) • Then we will check the newer chipset with the same evaluation board • G-Link • In autumn after LVDS test we will start extensively the G-link study 14/6/2000 End Cap Muon Trigger Review at CERN

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