一种GHz波形记录仪和数字化专用集成电路

2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD) Pub Date : 2016-10-01 DOI:10.1109/NSSMIC.2016.8069659

J. Qin, Lei Zhao, Yiming Lu, B. Cheng, Shubin Liu, Q. An

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引用次数: 1

摘要

探测器输出的脉冲波形能承载最大可能的信息，而对波形快速数字化的高要求促使了开关电容阵列(SCAs)的发展。设计并制作了一种双通道瞬态波形数字化专用集成电路样机，采用全球铸造0.18缸CMOS工艺。每个通道采用128个采样深度的SCA结构，高速采样时钟由片上延迟锁定环路(DLL)提供。波形捕获后，模拟信号被馈送到128个并行的12位斜坡比较器模拟到数字转换器(adc)，然后是一个200 MHz速率的串行读出模块。仿真结果表明，输入模拟带宽大于300 MHz，采样速度可在0.5 ~ 2 GSa/s范围内调节，经过幅度和时间校准后，信号电压范围为1 V，在200 MHz输入时信噪比(SNR)达到56 dB。每个通道的数据分别在10 μs内读出。

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A GHz waveform recorder and digitizer ASIC

Waveform of the pulse from detectors carry the maximum possible information, and the high demands of fast waveform digitizing led to the development of switched capacitor arrays (SCAs). A prototype of two channels transient waveform digitization ASIC has been designed and fabricated in global foundry 0.18 urn CMOS process. Each channel employs a SCA structure of 128 samples deep, and the high speed sample clock is provided by an on-chip delay-locked loop (DLL). After waveform capture, the analog signal is fed into 128 parallel 12-bit ramp-comparator analog to digital convertors (ADCs), then followed by a serialized readout module with 200 MHz rate. Based on the simulate results, input analog bandwidth is more than 300 MHz and sampling speed can be adjusted from 0.5 to 2 GSa/s, and after amplitude and time calibration, a full 1 V signal voltage range is available, and the Signal-to-Noise Ratio (SNR) reaches 56 dB at 200 MHz input. Data of each channel can be read out in under 10 μs, respectively.

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来源期刊

2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD)

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