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CMS RPC link system tester and quality control

Authors
Esfandi, F.Ebrahimi, M.Zareian, E.Amoozegar, V.Hosseini, Y.Boghrati, B.Mohammadi Najafabadi, M.Kim, T.J.Asilar, E.Ryou, Y.Tytgat, M.Mota Amarilo, K.Samalan, A.Skovpen, K.Alves, G.Alves Coelho, E.Marujo da Silva, F.Barroso Ferreira Filho, M.Da Costa, E.De Jesus Damiao, D.Ferreira, B.Fonseca De Souza, S.Mundim, L.Nogima, H.Pinheiro, J.Santoro, A.Thiel, M.Gomes De Souza, R.Aleksandrov, A.Hadjiiska, R.Iaydjiev, P.Shopova, M.Sultanov, G.Dimitrov, A.Litov, L.Pavlov, B.Petkov, P.Petrov, A.Shumka, E.Cao, P.Diao, W.Gong, W.Hou, Q.Kou, H.Liu, Z.-A.Song, J.Wang, N.Zhao, J.Qian, S.Avila, C.Barbosa Trujillo, D.Cabrera, A.Florez, C.Reyes Vega, J.Aly, R.Radi, A.Assran, Y.Crotty, I.Mahmoud, M.Balleyguier, L.Chen, X.Combaret, C.Galbit, G.Gouzevitch, M.Grenier, G.Laktineh, I.Luciol, A.Mirabito, L.Tromeur, W.Bagaturia, I.Kemularia, O.Lomidze, I.Tsamalaidze, Z.Abbrescia, M.De Filippis, N.Iaselli, G.Loddo, F.Pugliese, G.Ramos, D.Benussi, L.Bianco, S.Meola, S.Piccolo, D.Buontempo, S.Carnevali, F.Lista, L.Paolucci, P.Fienga, F.Braghieri, A.Montagna, P.Riccardi, C.Salvini, P.Vitulo, P.Choi, S.Hong, B.Lee, K.Goh, J.Shin, J.Lee, Y.Pedraza, I.Uribe Estrada, C.Castilla-Valdez, H.Lopez-Fernandez, R.Sánchez Hernández, A.Ramírez García, M.Ramirez Guadarrama, D.Shah, M.Vazquez, E.Zaganidis, N.Ahmad, A.Asghar, M.Hoorani, H.Muhammad, S.Eysermans, J.
Issue Date
Jun-2025
Publisher
Institute of Physics
Keywords
Data acquisition circuits; Data acquisition concepts; Digital electronic circuits; Trigger concepts and systems (hardware and software)
Citation
Journal of Instrumentation, v.20, no.6, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Journal of Instrumentation
Volume
20
Number
6
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/213005
DOI
10.1088/1748-0221/20/06/P06023
ISSN
1748-0221
1748-0221
Abstract
The Link System of resistive plate chambers (RPC) within the CMS Muon detector is being upgraded as part of CMS upgrade phase-2, aimed at optimising performance for the high luminosity LHC (HL-LHC) environment. This upgrade employs new electronics to improve Muon hit timing resolution and handle higher data rates. Key components of the upgraded system are the link boards and control boards. For the phase-2 upgrade, 1,592 boards need to be produced. The production is divided into two phases, pilot production and full production, to secure the quality of the entire production. This paper outlines a three-step production test plan for the pilot production of the Link System. This test plan ensures quality and functionality by performing primary quality control, basic electronics tests, and advanced system performance testing sequentially. Each step is subject to strict quality control and requires approval before proceeding. This structured approach optimizes error detection and resolution, leading to accurate and reliable results and ensuring that the upgraded system meets the operational requirements of the HL-LHC.
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