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首页> 外文期刊>IEEE transactions on circuits and systems . I , Regular papers >A 18.5 nW 12-bit 1-kS/s Reset-Energy Saving SAR ADC for Bio-Signal Acquisition in 0.18-$mu$m CMOS
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A 18.5 nW 12-bit 1-kS/s Reset-Energy Saving SAR ADC for Bio-Signal Acquisition in 0.18-$mu$m CMOS

机译:用于生物信号采集的18.5 nW 12位1-kS / s复位节能SAR ADC,采用0.18- $ mu $ m CMOS

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摘要

This paper presents three low-power design techniques for successive approximation registers (SAR) analog-to-digital converter (ADC) for bio-potential signal acquisition: skip-reset, delta (Δ) readout with MSB-rounding, and tri-level split monotonic switching. The skip-reset scheme reduces not only reference energy but also digital switching energy for the ADC reset. The Δ-readout process with the proposed MSB-rounding technique shifts the location of the resolvable range using the previous digital code to increase the hit-rate. Finally, the tri-level split monotonic switching scheme minimizes the CDAC switching activity in predictive residue generation for the Δ-readout process. A prototype ADC was fabricated in a 0.18-μm CMOS technology and occupies an active area of 0.17 mm2. At a 1.5-V supply voltage and a 1-kS/s sampling-rate with the electrocardiogram signal input, the ADC power consumption could be reduced to 18.5 nW, corresponding to 71% power saving, and owing to the proposed techniques from a conventional SAR ADC consuming 63.5 nW.
机译:本文介绍了三种低功耗设计技术,这些技术用于逐次逼近寄存器(SAR)模数转换器(ADC),用于生物电势信号采集:跳过复位,具有MSB舍入的增量(Δ)读数和三电平拆分单调切换。跳过复位方案不仅降低了参考能量,而且还降低了ADC复位的数字开关能量。采用建议的MSB舍入技术的Δ读取过程使用以前的数字代码来移动可分辨范围的位置,以提高命中率。最后,三级拆分单调切换方案最大程度地减少了Δ读出过程的预测残留生成中的CDAC切换活动。 ADC原型是采用0.18-μmCMOS技术制造的,其有效面积为0.17 mm n 2 n。在1.5V的电源电压和1kS / s的心电图信号输入采样率下,ADC功耗可降低到18.5 nW,相当于节省了71%的功率,这归因于从传统的SAR ADC功耗为63.5 nW。

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