可重构超级电容器阵列扫描电压升级充电的能量收集

IEEE/ACM International Symposium on Low Power Electronics and Design Pub Date : 2011-08-01 DOI:10.1109/ISLPED.2011.5993642

Sehwan Kim, P. Chou

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引用次数: 20

摘要

EscaCap是一种能量采集器，它使用增压充电泵进行最大功率传输跟踪(MPTT)，同时对具有可重构拓扑结构的储层超级电容器阵列(RSA)充电。与反压式收割机不同，EscaCap的电压加倍电荷泵使传感器节点能够在低环境功率条件下工作。RSA中的超级电容器可以通过开关阵列动态配置为串联或并联拓扑，既可以减少超级电容器的漏电，又可以提高充电速度。此外，EscaCap的RSA是模块化的，可以很容易地扩展。实验结果表明，EscaCap在低、高太阳辐照条件下均能高效收集能量，充电时间较短，具有灵活性和鲁棒性。

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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Energy harvesting by sweeping voltage-escalated charging of a reconfigurable supercapacitor array

EscaCap is an energy harvester that uses a boost-up charge pump to perform maximum power-transfer tracking (MPTT) while charging a reservoir supercapacitor array (RSA) with a reconfigurable topology. Unlike buck-down type harvesters, the voltage-doubling charge pump of EscaCap enables the sensor nodes to operate under low ambient power conditions. The supercapacitors in the RSA can be dynamically configured for series or parallel topologies by means of a switch array for not only minimizing leakage of the supercapacitors but also improving the charging speed. Furthermore, the RSA of EscaCap is modular and can be easily expanded. Experimental results show that EscaCap can harvest energy efficiently under low and high solar irradiation conditions, achieve shorter charging time, and demonstrate flexibility and robustness.

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IEEE/ACM International Symposium on Low Power Electronics and Design

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