采用相关电平移位技术的12位3.3MS/S流水线循环ADC

2017 International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS) Pub Date : 2017-11-01 DOI:10.1109/ISPACS.2017.8266549

Koken Chin, Yuta Mishima, Yuki Watanabe, Hiroyuki Tsuchiya, H. San, T. Matsuura, M. Hotta

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引用次数: 1

摘要

本文提出了一种12位、3.3MS/s非二进制流水线循环模数转换器(ADC)的原型，采用相关电平移位(CLS)技术和片上非二进制到二进制逻辑块。所提出的ADC采用4级管道结构设计，每级管道都是一个基于ß-扩展的非二进制循环ADC，能够容忍电容失配和放大器增益有限的非理想性。我们还提供了用于循环ADC级的CLS技术，以在低电源电压下使用小电容获得高信噪比。此外，该ADC还包括片上非二进制到二进制转换逻辑块。用简单的数字电路实现了基数值自估计和非二进制到二进制的编码功能。采用90nm CMOS技术设计和制造了一个概念验证ADC。测量ENOB = 10.45bit时，以3.3MS/s采样208kHz正弦波输入。将ADC的动态输入范围扩展到1.8V，而电源电压为1.2V。

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A 12-Bit 3.3MS/S pipeline cyclic ADC with correlated level shifting technique

This paper presents a prototype of 12-bit, 3.3MS/s non-binary pipeline cyclic analog-to-digital converter (ADC) with correlated level shifting (CLS) technique and an on-chip non-binary to binary logic block. The proposed ADC is designed in 4-stage pipeline structure, and each pipeline stage is a non-binary cyclic ADC based on ß-expansion, which tolerates the non-idealities of capacitor mismatch and finite amplifier gain. We also provide the CLS technique for cyclic ADC stage to obtain high SNR with small capacitors in low supply voltage. Furthermore, this ADC includes an on-chip non-binary to binary conversion logic block. The radix-value self-estimation and non-binary to binary encode functions are realized by simple digital circuits. A proof-of-concept ADC is designed and fabricated in 90nm CMOS technology. Measured ENOB = 10.45bit is achieved while a 208kHz sinusoid input is sampled at 3.3MS/s. The dynamic input range of ADC is extended to 1.8V while the supply voltage of 1.2V.

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2017 International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS)

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