用于超低功耗升压充电能量收集器的 5V、33 kHz、OJ-μW 脉冲发生电路

Wootaek Lim, Joonseok Yang, Myeong-Jae Park, Min-Woo Won, Jaeha Kim
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引用次数: 5

摘要

本文介绍了一种超低功耗振荡器和脉宽调制器电路,用于基于升压转换器的能量收集器,即使输入功率小于 2μW 也能收集净能量。虽然之前发布的基于漏电的弛豫振荡器在 3.2-MHz 时的功率为 0.42μW,但其电压摆幅被限制在 0.45V,以防止交叉检测器级中出现撬棍电流。新的交叉检测器电路将撬棍电流限制在阈值以下漏电水平,使超低功率振荡器和脉宽调制器即使在 5V 电源下工作也能正常工作。原型振荡器采用 0.25μm CMOS 制作,在 5V 摆幅下产生 10-Hz 至 20-MHz 时钟时,耗散功率仅为 10nW 至 50μW。即使光伏电池的输入功率降至 2μW,33-kHz 的能量收集器开关也能保持 59% 以上的效率。
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A 5V, 33-kHz, OJ-μW pulse generation circuit for ultra-low-power boost charging energy harvesters
This paper presents a ultra-low-power oscillator and pulse-width modulator circuits for a boost-converter-based energy harvester that is capable of collecting net energy even when the input power is less than 2μW. While the previously published leakage-based relaxation oscillators demonstrated 0.42μW at 3.2-MHz, their voltage swings were limited to 0.45V to prevent crowbar currents in the crossing detector stages. New crossing detector circuits that limit the crowbar current to a sub-threshold leakage level enables both the ultra-low-power oscillator and pulse-width modulator even when they are operating at a 5V supply. Fabricated in a 0.25μm CMOS, the prototype oscillator dissipates only 10nW~50μW while generating a 10-Hz to 20-MHz clock at 5V swing. The energy harvester switching at 33-kHz keeps the efficiency above 59% even when the input power level from photovoltaic cells drops to 2μW.
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