CERN Accelerating science

000560384 001__ 560384
000560384 003__ SzGeCERN
000560384 005__ 20180924171756.0
000560384 0247_ $$2DOI$$a10.1109/TNS.2002.1039576
000560384 0248_ $$aoai:cds.cern.ch:560384$$pcerncds:CERN
000560384 035__ $$9CERN annual report$$a2002-3.0346
000560384 035__ $$9INSPEC$$a7069268
000560384 035__ $$9SPIRES$$a5428645
000560384 035__ $$9Inspire$$a605091
000560384 041__ $$aeng
000560384 100__ $$aDrouhin, F
000560384 245__ $$aThe control system for the CMS tracker front-end
000560384 260__ $$c2002
000560384 520__ $$aThe CMS Tracker uses complex, programmable embedded electronics for the readout of the Silicon sensors, for the control of the working point of the optical transmitters, for the phase adjustment of the 40 MHz LHC clock and for the monitoring of the voltages, currents and temperatures. In order to establish reliable, noise-free communication with the outside world the control chain has been designed to operate over a ribbon of optical fibers. The optical links, the Front End Controller board that carries their support electronics, the Clocking and Control Unit module receiving the signals over the high-speed link and fanning them out to the front- ends have recently become available. A multi-layered software architecture to handle these devices, and the front-ends, in a way transparent to the end-user, interfaced to an Oracle database for the retrieval of the parameters to be downloaded with the intent of building and operating a small-scale prototype of the control system for the CMS Tracker. The paper describes the components, hardware and software, of the prototype Control System developed for the CMS Tracker. (9 refs).
000560384 595__ $$aSIS INSP2002
000560384 595__ $$i7069268
000560384 595__ $$arefTOTEM
000560384 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
000560384 690C_ $$aARTICLE
000560384 690C_ $$aCERN
000560384 693__ $$aCERN LHC$$eCMS
000560384 694__ $$9INSPEC$$aA2960 (Counting circuits and nuclear electronics)
000560384 694__ $$9INSPEC$$aA2940P (Semiconductor detectors)
000560384 694__ $$9INSPEC$$aB7430 (Counting circuits and electronics for particle physics)
000560384 694__ $$9INSPEC$$aB7420 (Particle and radiation detection and measurement)
000560384 694__ $$9INSPEC$$aB6260 (Optical communication)
000560384 694__ $$9INSPEC$$aCI Si int, Si el
000560384 694__ $$9INSPEC$$aNI frequency: 4
000560384 695__ $$9INSPEC$$anuclear-electronics
000560384 695__ $$9INSPEC$$aoptical-fibre-communication
000560384 695__ $$9INSPEC$$asilicon-radiation-detectors
000560384 700__ $$aFigueiredo, P
000560384 700__ $$aLjuslin, C
000560384 700__ $$aMaazouzi, C
000560384 700__ $$aMarchiero, A
000560384 700__ $$aMarinelli, N
000560384 700__ $$aPaillard, C
000560384 700__ $$aSiegrist, P
000560384 700__ $$aTsirou, A L
000560384 700__ $$aVerdini, P G
000560384 700__ $$aWalsham, P
000560384 700__ $$aZghiche, A
000560384 710__ $$5EP
000560384 773__ $$c846-850$$pIEEE Trans. Nucl. Sci.$$v49$$y2002
000560384 901__ $$uUniv de Haute-Alsace
000560384 916__ $$sh$$w200252$$ya2002
000560384 960__ $$a13
000560384 961__ $$c20100901$$h1605$$lCER01$$x20020615
000560384 963__ $$aPUBLIC
000560384 962__ $$b529549$$k10/6-10 (v.2)$$nlyons20001015a
000560384 970__ $$a002318109CER
000560384 980__ $$aARTICLE
000560384 980__ $$aConferencePaper