CERN – 7 Oct 04 1 LHCb Muon Grounding Anatoli Katchouk CERN Alessandro Balla, Paolo Ciambrone, Maurizio Carletti, Giovanni Corradi, Giulietto Felici, Rosario.

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Presentation transcript:

CERN – 7 Oct 04 1 LHCb Muon Grounding Anatoli Katchouk CERN Alessandro Balla, Paolo Ciambrone, Maurizio Carletti, Giovanni Corradi, Giulietto Felici, Rosario Lenci INFN - Laboratori Nazionali di Frascati Maurizio Gatta INFN - RomaII

CERN – 7 Oct 04 2 Grounding components Grounding HV connections Front End Off-chamber connections Safety connections LVPS connections Front End On-chamber connections

CERN – 7 Oct 04 3 Reference ground Safety ground Signal ground Grounding, shielding and power distribution must be handled together to avoid EMI pickup and preserve signal integrity Signal ground : on-detector electronics ground reference Reference ground : off-detector electronics ground reference Safety ground : connection to earth How many grounds ?

CERN – 7 Oct 04 4 Grounding components Grounding HV connections Front End Off-chamber connections Safety connections LVPS connections Front End On-chamber connections

CERN – 7 Oct 04 5 Z1 Safety connections Detector must be connected to earth for safety reasons Chamb 1Chamb 2 Chamb 3 Chamb … Copper braid (sitting on the edge of the wall) Z2 Z3 Z4 Zstrip

CERN – 7 Oct 04 6 Grounding components Grounding HV connections Front End Off-chamber connections Safety connections LVPS connections Front End On-chamber connections

CERN – 7 Oct 04 7 HV supply voltage is distributed using shielded cables Shield can not be connected to ground to both sides to avoid ground loops A resistor (~ 1-10 k) is used on the detector side to break the loop Some current will flow through the low resistance safety earth network (unavoidable) HV connections HV PS Load 1-10 k

CERN – 7 Oct 04 8 Grounding components Grounding HV connections Front End Off-chamber connections Safety connections LVPS connections Front End On-chamber connections

CERN – 7 Oct 04 9 Front end on-chamber connections (I) SPBCARDIACOPB LVPS regulator board Safety ground must be connected to FC through a low impedance path (copper braid) Faraday cage is the chamber signal ground Ground connection LVPS connector CARDIAC connector Faraday cage

CERN – 7 Oct Front end on-chamber connections (II)

CERN – 7 Oct Grounding components Grounding HV connections Front End Off-chamber connections Safety connections LVPS connections Front End On-chamber connections

CERN – 7 Oct Data transmission between front end electronics and DAQ system is implemented via differential electrical connections (LVDS)  good immunity to common mode noise As we will use shielded cables one end is connected directly to ground while the other end could be connected to ground through a capacitor to avoid low frequency loops Front End Off-chamber connections Shielded Twisted cable Exceeding the common mode range can damage LVDS driver/receiver circuits |V A -V B | must be less than the LVDS common mode range A B

CERN – 7 Oct Grounding components Grounding HV connections Front End Off-chamber connections Safety connections LVPS connections Front End On-chamber connections

CERN – 7 Oct LVPS connections (I) Number of Chambers FEE boards x Chamber Icc x Chamber (A) Icc (A) x Station Total (A) Current M1 R419231,38264,96 927,36 R348125,52264,96 R224 11,04264,96 R ,04132,48 M2/M3 R ,38264,96 850,08 R ,52264,96 R ,12242,88 R ,4477,28 M4/M5 R ,38264,96 529,92 R348 62,76132,48 R224 62,7666,24 R112 5,5266,24 Total4217,28 Front end current requirements ( LHCb internal note) CARIOCA V DIALOG V

CERN – 7 Oct LVPS connections (II) 40 A Module N A M1R3 M2/M3-R3 M4/M5-R1 N A M4/M5-R3 N A M1R4 M2/M3-R4 M4/M5-R4 LVPS Patch panel & fuses Chamber 1 Chamber 2 Chamber n

CERN – 7 Oct Conclusions The on-chamber shielding and grounding scheme has been studied and successfully tested in several TB The proposed grounding scheme requires : FC as detector signal ground reference Floating low voltage power supply Chamber connected only to the safety ground High voltage ground broken by resistor The maximum ground voltage difference between on- detector and off-detector electronics must be less than LVDS allowed common voltage