6.3µw20b增量变焦adc, INL为6ppm,偏移量为1µV

Youngcheol Chae, K. Souri, K. Makinwa
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引用次数: 16

摘要

增量式模数转换器(adc)可用于许多仪表应用,例如桥式传感器和智能传感器的读出[1-4]。此类应用需要具有高绝对精度和线性度以及高分辨率的adc。此外,由于感兴趣的信号通常在直流附近,因此此类adc必须采用鲁棒偏置和1/f降噪技术。满足这些要求通常会导致adc的能源效率较差,从而阻止它们在由电池或能量清除器供电的系统中使用。本文介绍了一种微功率增量ADC,可实现20b分辨率、1μV偏移和6ppm INL,而功耗比具有同等精度的ADC低一个数量级以上[3-6]。这是通过使用两步或缩放ADC架构[1,2]、基于逆变器的积分器和各种动态纠错技术来实现的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A 6.3µW 20b incremental zoom-ADC with 6ppm INL and 1µV offset
Incremental analog-to-digital converters (ADCs) can be applied in many instrumentation applications, such as the readout of bridge transducers and smart sensors [1-4]. Such applications require ADCs with high absolute accuracy and linearity, as well as high resolution. Moreover, since the signals of interest are typically near DC, such ADCs must employ robust offset and 1/f noise-reduction techniques. Fulfilling these requirements often results in ADCs with poor energy efficiency, thus preventing their use in systems powered by batteries or energy scavengers. This paper describes a micro-power incremental ADC that achieves 20b resolution, 1μV offset and 6ppm INL, while dissipating more than an order of magnitude less energy than ADCs with comparable precision [3-6]. This is achieved by the use of a 2-step or zoom ADC architecture [1,2], an inverter-based integrator, and various dynamic error-correction techniques.
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