Recent Developments in Single-Phase Power Factor Correction

2007 Power Conversion Conference - Nagoya Pub Date : 2007-04-02 DOI:10.1109/PCCON.2007.373165

Z. Bing, Min Chen, S. Miller, Y. Nishida, Jian Sun

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引用次数: 19

Abstract

The development of single-phase power factor correction (PFC) technologies was traditionally driven by the need for computers, telecommunication, lighting, and other electronic devices and systems to meet harmonic current limits defined by IEC 61000-3-2 and other regulatory standards. Recently, several new applications have emerged as additional drivers for the development of the technologies. One such application is commercial transport airplanes where single-phase PFC converters capable of meeting stringent airborne power quality requirements are required for in-flight entertainment (IFE), avionics, communication, and other single-phase loads. The proliferation of variable-speed motor drives in home appliances has also generated a new need for high-power (up to a few kilowatts), high-efficiency, and low-cost single-phase PFC converters. New PFC circuits, control methods, as well as EMI modeling and design techniques are being developed in response to these new requirements, which are reviewed in this paper. Specific subjects to be covered include airborne and home appliance applications, as well as EMI modeling and EMI filter design optimization.

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单相功率因数校正的最新进展

单相功率因数校正(PFC)技术的发展传统上是由计算机，电信，照明和其他电子设备和系统的需求驱动的，以满足IEC 61000-3-2和其他监管标准定义的谐波电流限制。最近，一些新的应用程序已经出现，作为技术发展的额外驱动因素。其中一个应用是商用运输机，其中需要能够满足严格的机载功率质量要求的单相PFC转换器，用于飞行娱乐(IFE)，航空电子设备，通信和其他单相负载。家用电器中变速电机驱动器的激增也产生了对高功率(高达几千瓦)，高效率和低成本单相PFC转换器的新需求。新的PFC电路，控制方法，以及电磁干扰建模和设计技术正在开发，以响应这些新的要求，在本文中进行了综述。具体涉及的主题包括机载和家用电器应用，以及EMI建模和EMI滤波器设计优化。

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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2007 Power Conversion Conference - Nagoya

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