改进的开关电容(SC)能量缓冲结构暂态响应控制策略及设计考虑

2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2013-03-17 DOI:10.1109/APEC.2013.6520222

A. H. Chang, S. Leeb

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引用次数: 3

摘要

开关电容器(SC)技术已被提出用于直流和交流电网之间的能量缓冲。这些技术已经实现使用薄膜或陶瓷电容器，并已被证明实现高能量利用率和相当的有效能量密度电解电容器。实际应用需要能够处理瞬变的控制方案。本文全面介绍了SC能量缓冲器设计空间，并检查了有关电路拓扑，开关配置和控制复杂性的权衡。提出了一种两步控制方法，以减轻不期望的瞬态响应。

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Improved transient response control strategy and design considerations for switched-capacitor (SC) energy buffer architectures

Switched-capacitor (SC) techniques have been proposed for energy buffering applications between DC and AC grids. These techniques have been implemented using film or ceramic capacitors and have been shown to achieve high energy utilization and comparable effective energy density to electrolytic capacitors. Practical applications require control schemes capable of handling transients. This paper takes a comprehensive view of the SC energy buffer design space and examines tradeoffs regarding circuit topology, switching configuration, and control complexity. A two-step control methodology that mitigates undesirable transient responses is proposed.

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2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC)

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