A high-speed, low-noise CMOS 16-channel charge-sensitive preamplifier ASIC for APD-based PET detectors

2002 IEEE Nuclear Science Symposium Conference Record Pub Date : 2002-12-02 DOI:10.1109/NSSMIC.2002.1239371

M. Weng, E. Mandelli, W. Moses, S. Derenzo

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引用次数: 26

Abstract

A high-speed, low-noise 16-channel amplifier IC has been fabricated in the UP 0.5 /spl mu/m CMOS process. It is a prototype for use with a PET detector which uses a 4/spl times/4 avalanche photodiode (APD) array having 3 pF of capacitance and 75 nA of leakage current. This requires that the preamplifier have a fast rise time (a few ns) in order to generate an accurate timing signal, low noise in order to accurately measure the energy of the incident gamma radiation, and high density in order to read out 2-D arrays of small (2 mm) pixels. A single channel consists of a charge-sensitive preamplifier followed by a pad-driving buffer. The preamplifier is reset by an NMOS transistor in the triode region which is controlled by an externally supplied current. The IC has 16 different gain settings which were measured to range from 2.085 mV/fC to 10.695 mV/fC. The gain is determined by four switched capacitors in the feedback loop. The switch state is set by two digital input lines which control a 64-bit shift register on the IC. A preamplifier 10-90% rise time as low as 2.7 ns with no external input load and 3.6 ns with a load of 5.8 pF was achieved. For the maximum gain setting and 5.8 pF of input load, the amplifier had 400 electrons of RMS noise at a peaking time of 0.7 /spl mu/s. The IC is powered by a +3.3 V supply drawing 60 mA.

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一种高速，低噪声CMOS 16通道电荷敏感前置放大器ASIC，用于基于apd的PET探测器

采用UP 0.5 /spl mu/m CMOS工艺制备了高速、低噪声的16通道放大器IC。这是一个用于PET检测器的原型，该检测器使用4/spl倍/4雪崩光电二极管(APD)阵列，具有3 pF的电容和75 nA的泄漏电流。这要求前置放大器具有快速的上升时间(几纳秒)，以产生准确的定时信号，低噪声，以准确测量入射伽马辐射的能量，高密度，以读出小(2mm)像素的二维阵列。单通道由一个电荷敏感前置放大器和一个衬垫驱动缓冲器组成。前置放大器由三极管区域的NMOS晶体管复位，该三极管由外部供电电流控制。该IC具有16种不同的增益设置，测量范围为2.085 mV/fC至10.695 mV/fC。增益由反馈回路中的四个开关电容决定。开关状态由控制IC上64位移位寄存器的两条数字输入线设置。在没有外部输入负载的情况下，前置放大器的10-90%上升时间低至2.7 ns，在负载为5.8 pF时达到3.6 ns。对于最大增益设置和5.8 pF输入负载，放大器在峰值时间为0.7 /spl mu/s时具有400个电子的RMS噪声。集成电路是由+3.3 V电源绘制60 mA供电。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2002 IEEE Nuclear Science Symposium Conference Record

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