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A scalable High Voltage Power Supply System with system on chip control for Micro Pattern Gaseous Detectors

Authors :
F. Tessarotto
M. Gregori
Kasun S. Mannatunga
S. Levorato
Andres Cicuttin
B. Valinoti
C. Chatterjee
S.S. Dasgupta
P. Ciliberti
G. Menon
S. Dalla Torre
Yuxiang Zhao
Triloki
Werner Florian
L. García Ordóñez
Sayyed Mohammad Hashemi
B. Gobbo
Sergio Carrato
Maria Liz Crespo
A. Kosoveu
Carrato, S.
Chatterjee, C.
Cicuttin, A.
Ciliberti, P.
Crespo, M. L.
Dalla Torre, S.
Dasgupta, S.
Florian, W.
García Ordóñez, Luis Guillermo
Gobbo, B.
Gregori, M.
Kosoveu, A.
Levorato, S.
Mannatunga, K.
Menon, G.
Hashemi, S. M.
Tessarotto, F.
Triloki, Null
Valinoti, B.
Zhao, Y. X.
Publication Year :
2020

Abstract

The requirements posed to high voltage power supply systems by the operation of Micro Pattern Gaseous Detectors are specific in terms of high resolution diagnostic features and intelligent dynamic voltage control. These requirements are needed both when technology development is performed and when extended detector systems are supplied and monitored. Systems satisfying all the needed features are not commercially available. A single channel high voltage system matching the Micro Pattern Gaseous Detector needs has been designed and realized, including its hardware and software components. The system employs a commercial DC ∕ DC converter and is coupled to a custom high resolution ammeter. Local intelligence, flexibility and high speed inter-connectivity are provided by a System on Chip Board and the use of a powerful FPGA. The single channel system has been developed, as critical milestone towards the realization of a multi-channel system. The design, implementation and performance of the system are reported in detail in this article, as well as the performance of the single channel power supply when connected to a Micro Pattern Gaseous Detector in realistic working condition during a test beam exercise.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....2729bf3f577a75610749164ff61a429f