SAR-Assisted Energy-Efficient Hybrid ADCs

IEEE Open Journal of the Solid-State Circuits Society Pub Date : 2024-10-01 DOI:10.1109/OJSSCS.2024.3472000

Kent Edrian Lozada;Dong-Jin Chang;Dong-Ryeol Oh;Min-Jae Seo;Seung-Tak Ryu

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Abstract

The distinct advantages of low power consumption and hardware compactness make SAR ADCs especially appealing in scaled CMOS technologies, garnering significant attention. The residue left on the capacitor digital-to-analog converter (CDAC) after conversion in the SAR ADC negates the need for complex residue extraction circuits. This crucial feature has inspired numerous SAR-assisted architectural variations, employed in a range of applications from high resolution to high speed. This article introduces several energy-efficient hybrid ADC architectures that incorporate SAR ADCs as their sub blocks, including the following: SAR-assisted subranging SAR, which saves DAC switching power and can detect skew errors for time-interleaved ADCs; SAR-flash hybrid for energy-efficient high-speed conversion; SAR-assisted dual-residue pipelined ADC, which eliminates the stringent requirement for residue gain accuracy; and SAR-assisted delta–sigma modulator (DSM) with digital-domain noise coupling, which reduces the number of required analog integrators.

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SAR 辅助型高能效混合 ADC

SAR ADC 具有功耗低、硬件结构紧凑等显著优势，因此在按比例 CMOS 技术中尤其具有吸引力，备受关注。SAR ADC 在转换后会在电容数模转换器 (CDAC) 上留下残留物，因此无需复杂的残留物提取电路。这一关键特性激发了众多 SAR 辅助架构的变化，并被应用于从高分辨率到高速度的一系列应用中。本文介绍了几种将 SAR ADC 作为子模块的高能效混合 ADC 架构，包括以下几种：SAR 辅助亚量程 SAR，可节省 DAC 开关电源，并能检测时间交错 ADC 的偏斜误差；SAR-闪存混合，可实现高能效高速转换；SAR 辅助双残差流水线 ADC，可消除对残差增益精度的严格要求；以及 SAR 辅助三角积分调制器 (DSM)，具有数域噪声耦合功能，可减少所需的模拟积分器数量。

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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IEEE Open Journal of the Solid-State Circuits Society

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