A multichannel front-end readout ASIC for picosecond time resolution systems based on thin UFSD

E. J. Olave; F. Fausti; N. Cartiglia; R. Arcidiacono

doi:10.1088/1748-0221/15/07/C07012

A multichannel front-end readout ASIC for picosecond time resolution systems based on thin UFSD

E. J. Olave, F. Fausti, N. Cartiglia, R. Arcidiacono

Department of Pharmaceutical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

This work presents FAST, a multichannel readout ASIC designed to measure the time of arrival of MIP particles in Ultra-Fast Silicon Detectors (UFSD) with a time resolution of about 30 ps. The FAST ASIC is oriented to future High Energy Physics experiments, where high time resolution is exploited to mitigate pile-up effects, and more generally, to those applications that require accurate Time-of-Flight Silicon systems with low power consumption. The prototype has been designed in 110 nm CMOS technology, in three different flavors of front-end architecture. Each flavor is implemented in a different 20-channel ASIC. For all flavors, the power consumption of the front-end is 1.2 mW/channel. The three flavors of FAST are described in the paper, together with the simulation showing the timing performance of FAST coupled to different sensors geometries.

Original language	English
Article number	C07012
Journal	Journal of Instrumentation
Volume	15
Issue number	7
DOIs	https://doi.org/10.1088/1748-0221/15/07/C07012
Publication status	Published - Jul 2020

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title = "A multichannel front-end readout ASIC for picosecond time resolution systems based on thin UFSD",

abstract = "This work presents FAST, a multichannel readout ASIC designed to measure the time of arrival of MIP particles in Ultra-Fast Silicon Detectors (UFSD) with a time resolution of about 30 ps. The FAST ASIC is oriented to future High Energy Physics experiments, where high time resolution is exploited to mitigate pile-up effects, and more generally, to those applications that require accurate Time-of-Flight Silicon systems with low power consumption. The prototype has been designed in 110 nm CMOS technology, in three different flavors of front-end architecture. Each flavor is implemented in a different 20-channel ASIC. For all flavors, the power consumption of the front-end is 1.2 mW/channel. The three flavors of FAST are described in the paper, together with the simulation showing the timing performance of FAST coupled to different sensors geometries.",

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A multichannel front-end readout ASIC for picosecond time resolution systems based on thin UFSD

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