16.1 A 13b 4GS/s digitally assisted dynamic 3-stage asynchronous pipelined-SAR ADC

2017 IEEE International Solid-State Circuits Conference (ISSCC) Pub Date : 2017-02-01 DOI:10.1109/ISSCC.2017.7870368
B. Vaz, A. Lynam, B. Verbruggen, Asma Laraba, Conrado Mesadri, Ali Boumaalif, John McGrath, Umanath Kamath, R. D. L. Torre, A. Manlapat, D. Breathnach, C. Erdmann, B. Farley
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引用次数: 39

Abstract

In recent years, the need for high performance RF sampling ADCs has driven impressive developments of pipelined-SAR and pipelined ADCs, all supported by time-interleaving [1–4]. All these designs use a closed loop MDAC amplifier in the first stage and digital calibration/equalization to alleviate finite gain, settling and memory effects, but the closed-loop amplifier remains a scaling bottleneck. In this work, a three-stage asynchronous pipelined-SAR with open-loop integrator-based amplifiers is used to maximize the sampling frequency, resolution and linearity. The solution is mostly supported by dynamic circuits and multiple calibration loops to reduce cost, power and noise, maximize process portability and support production testability.
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16.1 a13b 4GS/s数字辅助动态3级异步流水线sar ADC
近年来,对高性能射频采样adc的需求推动了流水线sar和流水线adc的令人印象深刻的发展,所有这些都由时间交错支持[1-4]。所有这些设计都在第一级使用闭环MDAC放大器和数字校准/均衡来缓解有限增益,稳定和记忆效应,但闭环放大器仍然是缩放瓶颈。在这项工作中,采用了一个带开环积分器放大器的三级异步流水线sar来最大限度地提高采样频率、分辨率和线性度。该解决方案主要由动态电路和多个校准回路支持,以降低成本,功耗和噪声,最大限度地提高过程可移植性并支持生产可测试性。
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2017 IEEE International Solid-State Circuits Conference (ISSCC)
2017 IEEE International Solid-State Circuits Conference (ISSCC)
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