Experimental investigation of inductorless, single-stage boost rectification for sub-mW electromagnetic energy harvesters

IEEE/ACM International Symposium on Low Power Electronics and Design Pub Date : 2011-08-01 DOI:10.1109/ISLPED.2011.5993665
G. Szarka, P. Proynov, B. Stark, S. Burrow, N. McNeill
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引用次数: 12

Abstract

This paper demonstrates single-stage boost rectification for electromagnetic energy harvesters down to approximately 100 μW using practical low-power techniques. The circuits exploit the inductance of the generator, and operate without a discrete inductor, which facilitates integration. Experimental results demonstrate the importance of switching device selection, and the compound effect of the duty ratio on energy harvester output power and converter efficiency, as a function of load current. The circuits demonstrate up to 84.1% harvester utilization at the maximum extractable harvester power of 141 μW, and conversion efficiencies of 73.3% and 59.4% for half- and full-wave operation respectively, neglecting gate drive losses.
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亚毫瓦电磁能量采集器无电感单级升压整流实验研究
本文演示了利用实用的低功耗技术,将电磁能量采集器的单级升压整流降低到约100 μW。该电路利用了发电机的电感,无需分立电感即可运行,从而便于集成。实验结果证明了开关器件选择的重要性,以及占空比作为负载电流的函数对能量采集器输出功率和变换器效率的复合效应。在最大可提取收获功率为141 μW时,该电路的收获利用率高达84.1%,在忽略栅极驱动损耗的情况下,半波和全波工作的转换效率分别为73.3%和59.4%。
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IEEE/ACM International Symposium on Low Power Electronics and Design
IEEE/ACM International Symposium on Low Power Electronics and Design
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