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Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware

The Beam Radiation Instrumentation and Luminosity Project of the CMS experiment, consists of several beam monitoring systems. One system, the upgraded Fast Beams Condition Monitor, is based on 24 single crystal CVD diamonds with a double-pad sensor metallization and a custom designed readout. Signal...

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Autor principal: Zagozdzinska, Agnieszka Anna
Lenguaje:eng
Publicado: 2014
Materias:
Acceso en línea:http://cds.cern.ch/record/2105522
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author Zagozdzinska, Agnieszka Anna
author_facet Zagozdzinska, Agnieszka Anna
author_sort Zagozdzinska, Agnieszka Anna
collection CERN
description The Beam Radiation Instrumentation and Luminosity Project of the CMS experiment, consists of several beam monitoring systems. One system, the upgraded Fast Beams Condition Monitor, is based on 24 single crystal CVD diamonds with a double-pad sensor metallization and a custom designed readout. Signals for real time monitoring are transmitted to the counting room, where they are received and processed by new back-end electronics designed to extract information on LHC collision, beam induced background and activation products. The Slow Control Driver is designed for the front-end electronics configuration and control. The system architecture and the upgrade status will be presented.
id cern-2105522
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2014
record_format invenio
spelling cern-21055222019-09-30T06:29:59Zhttp://cds.cern.ch/record/2105522engZagozdzinska, Agnieszka AnnaArchitecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmwareDetectors and Experimental TechniquesThe Beam Radiation Instrumentation and Luminosity Project of the CMS experiment, consists of several beam monitoring systems. One system, the upgraded Fast Beams Condition Monitor, is based on 24 single crystal CVD diamonds with a double-pad sensor metallization and a custom designed readout. Signals for real time monitoring are transmitted to the counting room, where they are received and processed by new back-end electronics designed to extract information on LHC collision, beam induced background and activation products. The Slow Control Driver is designed for the front-end electronics configuration and control. The system architecture and the upgrade status will be presented.CMS-CR-2014-154oai:cds.cern.ch:21055222014-07-22
spellingShingle Detectors and Experimental Techniques
Zagozdzinska, Agnieszka Anna
Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware
title Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware
title_full Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware
title_fullStr Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware
title_full_unstemmed Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware
title_short Architecture of the upgraded BCM1F Backend Electronics for Beam Conditions and Luminosity measurement - hardware and firmware
title_sort architecture of the upgraded bcm1f backend electronics for beam conditions and luminosity measurement - hardware and firmware
topic Detectors and Experimental Techniques
url http://cds.cern.ch/record/2105522
work_keys_str_mv AT zagozdzinskaagnieszkaanna architectureoftheupgradedbcm1fbackendelectronicsforbeamconditionsandluminositymeasurementhardwareandfirmware