Single-switch equalization charger integrating SEPIC and equalizer using series-resonant voltage multiplier for series-connected energy storage cells/modules

2013 IEEE ECCE Asia Downunder Pub Date : 2013-06-03 DOI:10.1109/ECCE-ASIA.2013.6579112

M. Uno, A. Kukita

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引用次数: 1

Abstract

A single-switch equalization charger, which is a SEPIC integrated with a series-resonant voltage multiplier, is proposed in this paper. The operation of the SEPIC in the proposed equalization charger is identical to a traditional one, while the series-resonant voltage multiplier is driven by an asymmetrical square voltage wave generated at a switching node in the SEPIC. Most of the total charging power is supplied by the SEPIC, while the series-resonant voltage multiplier provides only a fraction of the charging power to eliminate the voltage imbalance. The proposed single-switch equalization charger not only simplifies the circuitry by reducing the switch count but also the system by combining two components (i.e. a charger and equalizer) into a single unit. An experimental charge-discharge cycling test was performed using a 50-W prototype for four supercapacitor (SC) modules connected in series. The series-connected SCs were mainly charged by the SEPIC while the voltage imbalance was gradually eliminated by the series-resonant voltage multiplier, demonstrating the proposed concept and the equalization performance.

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单开关均衡充电器集成SEPIC和均衡器采用串联谐振电压倍增器串联连接的储能电池/模块

本文提出了一种单开关均衡充电器，它是一个集成了串联谐振电压倍增器的SEPIC。该均衡充电器中SEPIC的工作原理与传统的SEPIC相同，而串联谐振电压倍增器是由SEPIC中一个开关节点产生的不对称方波驱动的。总的充电功率大部分由SEPIC提供，而串联谐振电压倍增器仅提供一小部分充电功率，以消除电压不平衡。提出的单开关均衡充电器不仅通过减少开关数量来简化电路，而且通过将两个组件(即充电器和均衡器)组合成一个单元来简化系统。采用50w原型机对4个串联超级电容器模块进行了充放电循环实验。串联sc主要由SEPIC充电，而串联谐振电压倍增器逐渐消除了电压不平衡，证明了所提出的概念和均衡性能。

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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2013 IEEE ECCE Asia Downunder

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