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ALCOR is a first prototype of a 32-pixel low-power mixed-signal ASIC developed to readout silicon photomultipliers at low temperature. The chip, designed in 110 nm CMOS technology, performs single photon time-stamping with a maximum event rate of 5 MHz per pixel. The time measurement is performed using low-power TDCs based on analogue time interpolation. The time binning achievable at maximum clock frequency is 50 ps and the target power consumption is less than 5 mW per pixel. Generated data are serialised and transmitted through LVDS drivers. To assert the CMOS electronic behaviour at 77K, a Test Chip has been produced and tested. Results of a digital synchronisation circuit are reported and discussed.

Integrated front-end electronics for single photon time-stamping in cryogenic dark matter detectors / Kugathasan, Ramshan. - In: JOURNAL OF INSTRUMENTATION. - ISSN 1748-0221. - ELETTRONICO. - 15:5(2020). [10.1088/1748-0221/15/05/C05019]

Integrated front-end electronics for single photon time-stamping in cryogenic dark matter detectors

Ramshan Kugathasan
2020

Abstract

ALCOR is a first prototype of a 32-pixel low-power mixed-signal ASIC developed to readout silicon photomultipliers at low temperature. The chip, designed in 110 nm CMOS technology, performs single photon time-stamping with a maximum event rate of 5 MHz per pixel. The time measurement is performed using low-power TDCs based on analogue time interpolation. The time binning achievable at maximum clock frequency is 50 ps and the target power consumption is less than 5 mW per pixel. Generated data are serialised and transmitted through LVDS drivers. To assert the CMOS electronic behaviour at 77K, a Test Chip has been produced and tested. Results of a digital synchronisation circuit are reported and discussed.
2020
JOURNAL OF INSTRUMENTATION
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2805332