Archivio Istituzionale della RicercaIn this report we present measurements performed on the full custom ASIC TOFFEE, designed to pre-amplify and discriminate signals of Ultra Fast Silicon Detectors. The ASIC has been characterized in laboratory, with custom test boards, and with infrared laser light hitting the sensor and emulating a minimum ionizing particle signal. Laser measurements show that a jitter term better than 50 (40) ps is achievable with a 10 (12) fC input charge. We also present some preliminary results on the TOFFEE performances, as obtained during recent beam tests with a 180 GeV/c pion beam, on the SPS-H8 beam line at CERN.
Laboratory and Beam Test Results of TOFFEE ASIC and Ultra Fast Silicon Detectors / Roberta, A., N., C., F., C., M., D.R.R., A., D.F., Fausti, F., M., M., Olave, E.J., J. C., R.D.S., A., R., R., S., J., V.. - ELETTRONICO. - Proceedings of Science:(2017), pp. 1-5. (Topical Workshop on Electronics for Particle Physics 2017 Santa Cruz, California 11-15 Settembre 2017).
Laboratory and Beam Test Results of TOFFEE ASIC and Ultra Fast Silicon Detectors
FAUSTI, FEDERICO;OLAVE, ELIAS JONHATAN;
2017
Abstract
In this report we present measurements performed on the full custom ASIC TOFFEE, designed to pre-amplify and discriminate signals of Ultra Fast Silicon Detectors. The ASIC has been characterized in laboratory, with custom test boards, and with infrared laser light hitting the sensor and emulating a minimum ionizing particle signal. Laser measurements show that a jitter term better than 50 (40) ps is achievable with a 10 (12) fC input charge. We also present some preliminary results on the TOFFEE performances, as obtained during recent beam tests with a 180 GeV/c pion beam, on the SPS-H8 beam line at CERN.
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https://hdl.handle.net/11583/2710373
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