Abstract
A 256-channel readout electronics system has been developed for a SciFi (scintillating fiber)-based muon beam monitor, which is utilized in the COMET (COherent Muon to Electron Transition) experiment. The muon beam monitor allows for the monitoring of muon beams by collecting optical signals generated when muons hit plastic scintillating fibers. The 256-channel readout electronics, including two SiPM carrier boards, two front-end boards (FEB), two data acquisition boards (DAQ) and one clock and trigger unit (CTU), measures the arrival time of each signal from the detector. The developed 256-channel readout electronics, with a timing precision of 3.3 ns and an event rate exceeding 500 kHz, has successfully met the requirements of the muon beam monitor during the phase-α of the COMET experiment.
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