一种88.6nW动态范围为159 dB的臭氧污染物传感接口IC

Proceedings of the ACM/IEEE International Symposium on Low Power Electronics and Design Pub Date : 2020-08-10 DOI:10.1145/3370748.3406579

Rishika Agarwala, Peng Wang, Akhilesh Tanneeru, Bongmook Lee, V. Misra, B. Calhoun

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引用次数: 1

摘要

本文设计了一种用于臭氧污染物检测的低功耗电阻传感器接口IC，设计电压为0.6V。气体传感器的大电阻范围给低功耗传感器接口的设计带来了挑战。现有架构不足以在实现高动态范围的同时实现低VDD操作，导致无论采用何种架构，功耗都很高。我们提出了一种自适应架构，提供基线电阻抵消和动态电流控制，以实现低VDD操作，同时在20kΩ-1MΩ上保持159dB的动态范围。传感器接口IC采用65nm大块CMOS工艺制造，功耗为88.6nW，比目前的水平低300倍。整个系统的功率范围在116 nW ~ 1.09 μW之间，其中包括所提出的传感器接口IC、模数转换器和外围电路。使用定制的电阻金属氧化物传感器验证了传感器接口的性能，臭氧浓度为50 ppb至900 ppb。

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An 88.6nW ozone pollutant sensing interface IC with a 159 dB dynamic range

This paper presents a low power resistive sensor interface IC designed at 0.6V for ozone pollutant sensing. The large resistance range of gas sensors poses challenges in designing a low power sensor interface. Exiting architectures are insufficient for achieving a high dynamic range while enabling low VDD operation, resulting in high power consumption regardless of the adopted architecture. We present an adaptive architecture that provides baseline resistance cancellation and dynamic current control to enable low VDD operation while maintaining a dynamic range of 159dB across 20kΩ-1MΩ. The sensor interface IC is fabricated in a 65nm bulk CMOS process and consumes 88.6nW of power which is 300x lower than the state-of-art. The full system power ranges between 116 nW - 1.09 μW which includes the proposed sensor interface IC, analog to digital converter and peripheral circuits. The sensor interface's performance was verified using custom resistive metal-oxide sensors for ozone concentrations from 50 ppb to 900 ppb.

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Proceedings of the ACM/IEEE International Symposium on Low Power Electronics and Design

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