一个架构可重构的3b到7b 4GS/s到1.5 gs /s ADC,使用减法器交错

R. Yousry, Ming-Shuan Chen, Mau-Chung Frank Chang, C. Yang
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引用次数: 3

摘要

本文介绍了一种基于65nm CMOS的高速可重构模数转换器的设计。通过数字校准和智能架构选择,在不影响性能的情况下满足精度要求。提出了部分交错结构,并引入了电流转向DAC和开环剩余放大器,以使MDAC在最小开销下稳定。子ADC的动态阈值调整既用于校准ADC偏置不匹配,也用于校正剩余放大器非理想性。ADC的分辨率范围从3-b到7-b,采样率从4GS/s到1.5GS/s。最坏情况下DNL和INL分别为±0.45LSB和±0.66LSB。ADC在7-b时的优值为0.46pJ/conv,占用的有效面积为0.15mm2。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An architecture-reconfigurable 3b-to-7b 4GS/s-to-1.5GS/s ADC using subtractor interleaving
This paper introduces the design of a high-speed reconfigurable analog-to-digital converter in 65-nm CMOS. Accuracy requirements are met without compromising performance by means of digital calibration and smart architecture selection. Partial interleaving architecture and the introduction of a current-steering DAC and an open-loop residue amplifier are proposed to relax the MDAC settling at minimal overhead. Dynamic thresholds adjustment for the sub-ADCs is employed both to calibrate the ADC offset mismatches and to correct for the residue amplifier nonidealities. The ADC covers a resolution range from 3-b to 7-b at sampling rates from 4GS/s to 1.5GS/s. The worst case DNL and INL are ±0.45LSB and ±0.66LSB respectively. The ADC achieves a figure-of-merit of 0.46pJ/conv at 7-b and occupies an active area of 0.15mm2.
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