基于0.13 μm CMOS的53-nW 9.12-ENOB 1-kS/s SAR ADC

2011 Proceedings of the ESSCIRC (ESSCIRC) Pub Date : 2011-10-13 DOI:10.1109/ESSCIRC.2011.6045008

Dai Zhang, Ameya Bhide, A. Alvandpour

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引用次数: 126

摘要

介绍了一种用于医疗植入器件的0.13 μm CMOS超低功耗SAR ADC。它采用超低功耗设计策略，最大限度地简化了ADC架构，低晶体管计数，低压低漏电路技术，并将电容式DAC与开关方案相匹配，从而实现全范围采样，无需开关自启动和额外复位电压。此外，双电源方案允许SAR逻辑在400mV下工作。该ADC采用0.13 μm CMOS结构。在1.0V单电源模式下，ADC以1kS/s的采样率消耗65nW，而在双电源模式下(模拟1.0V和数字0.4V)， ADC消耗53nW(降低18%)，ENOB同样为9.12。53-nW总功率的24%是由于泄漏造成的。据作者所知，这是此类采样率下10位ADC的最低功耗。

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A 53-nW 9.12-ENOB 1-kS/s SAR ADC in 0.13-μm CMOS for medical implant devices

This paper describes an ultra-low-power SAR ADC in 0.13-μm CMOS technology for medical implant devices. It utilizes an ultra-low-power design strategy, imposing maximum simplicity in ADC architecture, low transistor count, low-voltage low-leakage circuit techniques, and matched capacitive DAC with a switching scheme which results in full-range sampling without switch bootstrapping and extra reset voltage. Furthermore, a dual-supply scheme allows the SAR logic to operate at 400mV. The ADC has been fabricated in 0.13-μm CMOS. In 1.0-V single-supply mode, the ADC consumes 65nW at a sampling rate of 1kS/s, while in dual-supply mode (1.0V for analog and 0.4V for digital) it consumes 53nW (18% reduction) and achieves the same ENOB of 9.12. 24% of the 53-nW total power is due to leakage. To the authors' best knowledge, this is the lowest reported power consumption of a 10-bit ADC for such sampling rates.

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2011 Proceedings of the ESSCIRC (ESSCIRC)

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