Title :
Front-End ASIC for a Silicon Compton Telescope
Author :
De Geronimo, Gianluigi ; Fried, Jack ; Frost, Elliot ; Phlips, Bernard F. ; Vernon, Emerson ; Wulf, Eric A.
Author_Institution :
Instrum. Div., Brookhaven Nat. Lab., Upton, NY
Abstract :
We describe a front-end application specific integrated circuit (ASIC) developed for a silicon Compton telescope. Composed of 32 channels, it reads out signals in both polarities from each side of a silicon strip sensor, 2 mm thick 27 cm long, characterized by a strip capacitance of 30 pF. Each front-end channel provides low-noise charge amplification, shaping with a stabilized baseline, discrimination, and peak detection with an analog memory. The channels can process events simultaneously, and the read out is sparsified. The charge amplifier uses a dual-cascode configuration and dual-polarity adaptive reset. The low-hysteresis discriminator and the multi-phase peak detector process signals with a dynamic range in excess of four hundred. An equivalent noise charge (ENC) below 200 electrons was measured at 30 pF, with a slope of about 4.5 electrons/pF at a peaking time of 4 mus. With a total dissipated power of 5 mW the channel covers an energy range up to 3.2 MeV.
Keywords :
amplifiers; application specific integrated circuits; astronomical telescopes; discriminators; nuclear electronics; position sensitive particle detectors; readout electronics; silicon radiation detectors; charge amplifier; front-end ASIC; front-end application specific integrated circuit; low-hysteresis discriminator; low-noise charge amplification; multiphase peak detector; silicon Compton telescope; Analog memory; Application specific integrated circuits; Capacitance; Capacitive sensors; Detectors; Electrons; Sensor phenomena and characterization; Silicon; Strips; Telescopes; ASIC; Compton telescope; cascode;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2008.2001410
