A time-of-flight system on a chip suitable for space instrumentation

2001 IEEE Nuclear Science Symposium Conference Record (Cat. No.01CH37310) Pub Date : 2001-11-04 DOI:10.1109/NSSMIC.2001.1009667

N. Paschalidis, N. Stamatopoulos, K. Karadamoglou, G. Kottaras, V. Paschalidis, E. Sarris, B. Andrews, R. Mcentire, S. Jaskulek, D. Mitchell, R. McNutt

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引用次数: 7

Abstract

A time-of-flight (TOF) system-on-a-chip (SoC) for precise time interval measurement at low power and high rate has been developed. A micro-channel plate (MCP) electron multiplier typically produces the start and stop of a radiation event to be processed. The TOF chip includes two Constant Fraction Discriminators (CFDs) and a Time to Digital Converter (TDC). The CFDs interface to start and stop anodes through two simple preamplifiers and perform the signal conditioning for time walk compensation. The TDC portion digitizes the time difference with reference to an external precise oscillator. A first version of the TOF chip developed in a 0.8 u CMOS process achieved /spl sim/350 ps total time resolution, including time walk and time jitter, with /spl sim/20 mW power consumption at a rate of /spl sim/100 K events/sec and /spl sim/30 mW @ 1Mevents/sec. This chip is part of the HENA instrument of the NASA/IMAGE mission launched in March 2000 and is baselined for many other missions including the Energetic Particle Sensor (EPS) of Messenger etc.

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一种适用于空间仪器的芯片上的飞行时间系统

研制了一种低功耗、高速率下精确测量时间间隔的飞行时间(TOF)片上系统(SoC)。微通道板(MCP)电子倍增器通常产生待处理的辐射事件的开始和停止。TOF芯片包括两个恒定分数鉴别器(cfd)和一个时间数字转换器(TDC)。cfd接口通过两个简单的前置放大器启动和停止阳极，并执行时间行走补偿的信号调理。TDC部分参照外部精密振荡器对时间差进行数字化。采用0.8 u CMOS工艺开发的TOF芯片的第一个版本实现了/spl sim/350 ps的总时间分辨率，包括时间行走和时间抖动，功耗为/spl sim/20 mW，速率为/spl sim/100 K事件/秒和/spl sim/30 mW @ 1Mevents/秒。该芯片是2000年3月发射的NASA/IMAGE任务的HENA仪器的一部分，也是许多其他任务的基准，包括信使号的高能粒子传感器(EPS)等。

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2001 IEEE Nuclear Science Symposium Conference Record (Cat. No.01CH37310)

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