Title :
Noise susceptibility analysis of the HF front-end electronics for the CMS high-energy experiment
Author :
Arteche, F. ; Rivetta, C.
Author_Institution :
Exp. Phys. Div., CERN, Geneva, Switzerland
Abstract :
This paper addresses the study of the immunity to common mode spurious signals and external fields of an electronic system used in high-energy physics detectors. This study uses numerical simulations based on a MTL model applied to shielded cables to analyze common mode and EM radiated interferences in the connection between photodetectors and sensitive amplifiers. This set-up corresponds to the Very Forward Hadron Calorimeter (HF) in CMS and it is composed by about 3000 photo-multipliers and read-out amplifiers located about 4 meters from the photodetectors. Shielded cables are used to connect the photomultiplier anode signals to the amplifiers. This study allows predicting grounding and shielding problems and estimating the effect of interference noise at early stages of the design.
Keywords :
amplifiers; calorimeters; electromagnetic interference; immunity testing; photodetectors; photomultipliers; transmission line theory; CMS high-energy experiment; EM radiated interferences; HF frontend electronics; MTL model; common mode spurious signals; electronic system; high-energy physics detectors; interference noise; noise susceptibility analysis; numerical simulations; photo-multipliers; photodetectors; read-out amplifiers; sensitive amplifiers; shielded cables; shielding problems; very forward Hadron calorimeter; Anodes; Cable shielding; Collision mitigation; Detectors; Hafnium; Interference; Numerical simulation; Photodetectors; Photomultipliers; Physics;
Conference_Titel :
Electromagnetic Compatibility, 2003 IEEE International Symposium on
Print_ISBN :
0-7803-7835-0
DOI :
10.1109/ISEMC.2003.1236695
