RPC Electronics Link system RPC Annual Review, CERN, June 13, 2006 Maciek Kudla for Lappeenranta and Warsaw University
Maciek Kudla, RPC Review – Link System RPC Electronics - overview Link system Link system control
Maciek Kudla, RPC Review – Link System Link system - tasks 1.Control of FEBs (thresholds etc), 2.Synchronization FEB data to LHC clock, 3.Transmission FEB data (compressed) to Trigger Boards via optical links, 4.Diagnostic readout (RPC histograms, events) via CCU rings and CCS boards, 5.Injection of test patterns at FEB and LB level.
Maciek Kudla, RPC Review – Link System Link system – on detector Electronics Inventory ComponentAbbrev.FullStaged Link Board BoxLBB12496 LBB BackplaneBP12496 Master Link BoardMLB Slave Link BoardSLB Control BoardCB LBB FrontplaneFP Staged: all RB and RE1, RE2, RE3 < 1.6; no RE4, RE5
Maciek Kudla, RPC Review – Link System Link Board Box – front view Link and Control Boards compartment
Maciek Kudla, RPC Review – Link System Link Board Box – back view Detector cables (data, control) come here
Maciek Kudla, RPC Review – Link System Link Board Box – with all boards... Working in 904 Integration Area
Maciek Kudla, RPC Review – Link System Link Board Signals from RPC Detector Optical output (trigger)
Maciek Kudla, RPC Review – Link System Control Board Xilinx mezzanine board to be replaced by Actel FPGA Optical input/output (control) Control Signals to RPC Detector
Maciek Kudla, RPC Review – Link System LBB - Frontplane Control Bus between LBs and CB
Maciek Kudla, RPC Review – Link System Control/Readout Crate - CCS Board 3 CCS FEC Boards drives 18 CCU rings
Maciek Kudla, RPC Review – Link System MTCC – Link system Detector: (installed) YE LBBs, YB LBBs, YB LBB; Green barack: (installed) Control/Readout Crate (1 CCS, 1 DCC), Trigger Crate (1 TB), TTC Crate (TTCci, LTC, TTCex); 904: (installed, used for software development) 2 LBB, Control/Readout Crate (1 CCS, 1 DCC), Trigger Crate (1 TB), TTC Crate (TTCci, LTC, TTCex);
Maciek Kudla, RPC Review – Link System Link system - Status and schedule LBB - 36 installed on detector, 17 ready for installation, 43 - to be assembled, LB - 55 used MTCC, 6 used 904, 400 to be delivered July, CB - 8 used MTCC, 3 used 904, 60 to be delivered July, FP - 8 used MTCC, 3 used 904, 60 to be delivered July, Control Crate - 1 for MTTC, one for software development in 904
Maciek Kudla, RPC Review – Link System ProductionTests of LBB components Step 1 - Factory - basic tests (to assure the production quality and speed-up repair work): 1.LB tested with the production Lappeenranta tester 1.all outside connections are covered, 2.all connections between Xilinxes, 3.QPLL locking; 2.CB tested with BSCAN 1.some of the outside connector, 2.all connection between chips with BSCAN support, 3.possibly the flash programming (?); Step 2 – Lappeenranta - "system, functional test" full crate assemblied (2xCB, 18LB, 2FB): 1.test boards used instead of FEBs, 2.this should cover the things that are not included in Step 1 1.CB outside connections, 2.flash programming; Step 3 – Commissioning: 1.LBs, CBs in full ring setup – Step 2.1 repeated ~1 hour needed
Maciek Kudla, RPC Review – Link System RPC Link system Integration Status All tasks: Control of FEBs (thresholds etc), Synchronisation FEB data to LHC clock, Transmission FEB data (in compressed form) to Trigger Boards via optical links Diagnostic readout (RPC histograms, events) via CCU rings, Injection of test patterns at FEB and LB level Tested in several tests runs and in 904 Integration Area i.e synchronisation quality very good (< 1ns), Long CCU chain with redundacy tested, etc
Maciek Kudla, RPC Review – Link System Summary System in production stage, Software development advanced (see Bunkowski’s talk), Heavy cabling and detector installation before us...