A 0.3V biofuel-cell-powered glucose/lactate biosensing system employing a 180nW 64dB SNR passive δς ADC and a 920MHz wireless transmitter

2018 IEEE International Solid - State Circuits Conference - (ISSCC) Pub Date : 2018-02-01 DOI:10.1109/ISSCC.2018.8310295

Ali Fazli Yeknami, Xiaoyang Wang, Somayeh Imani, Ali Nikoofard, Itthipon Jeerapan, Joseph Wang, P. Mercier

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引用次数: 10

Abstract

Wearable physiochemical biosensors offer an exciting opportunity to monitor the concentration of ions and metabolites in bodily fluids such as sweat, saliva, and interstitial fluids for emerging applications in health and fitness monitoring [1]. However, current physiochemical sensing prototypes rely on batteries and DC-DC converters to provide power for instrumentation, which may result in a large, obtrusive form factor with limited lifetime [1]. This paper presents a wireless physiochemical sensing system capable of monitoring glucose or lactate when powered via an enzymatic biofuel cell (BFC) based on energy naturally present in the underlying analytes to be sensed. Unlike prior-art BFC harvesters, which utilize bulky boost converters to increase the 0.3-to-0.4V BFC voltage to a higher level suitable for conventional CMOS circuits [2], this work forgoes any DC-DC converter, and instead the entire system, including a ΔΣ ADC and 920mHz RF transmitter, is designed to operate directly from the dynamic 0.3-to-0.4V BFC output.

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采用180nW 64dB信噪比无源δς ADC和920MHz无线发射机的0.3V生物燃料电池供电的葡萄糖/乳酸生物传感系统

可穿戴的物理化学生物传感器为监测体液(如汗液、唾液和组织液)中的离子和代谢物浓度提供了一个令人兴奋的机会，为健康和健身监测中的新兴应用提供了机会[1]。然而，目前的物理化学传感原型依靠电池和DC-DC转换器为仪器提供电力，这可能导致体积大，外形突出，寿命有限[1]。本文介绍了一种无线物理化学传感系统，当通过酶生物燃料电池(BFC)供电时，该系统能够监测葡萄糖或乳酸，该电池基于待测分析物中自然存在的能量。现有技术的BFC收集器利用笨重的升压转换器将0.3至0.4 v的BFC电压提高到适合传统CMOS电路的更高水平[2]，与此不同的是，这项工作放弃了任何DC-DC转换器，而是整个系统，包括ΔΣ ADC和920mHz RF发射器，被设计为直接从0.3至0.4 v的动态BFC输出运行。

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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2018 IEEE International Solid - State Circuits Conference - (ISSCC)

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