倍流整流DC-DC变换器近场耦合集成磁件分析

摘要
图/表
参考文献
相关文章 (6)

全文: PDF (654 KB)
输出: BibTeX | EndNote (RIS)

摘要利用磁性元件磁场近场泄漏的耦合, 分析其在倍流整流变换器磁集成结构上的应用。采用磁路-电路对偶等效变换获得近场耦合集成磁件的等效电路模型, 直观地对两种现有磁集成方案进行统一描述。论文详细分析集成磁件磁心内部的交、直流磁通分布。基于磁件的回转器-电容模型, 对不同近场磁阻下电路的工作情况进行深入的讨论。建立48V输入、12V/90W输出的磁集成原理样机, 并进行实验验证和性能评估。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	卢增艺
	陈为
	毛春风

关键词 ：近场耦合, 倍流整流, 集成磁件, 回转器-电容模型

Abstract：Integrated magnetics in DC-DC converter with current doubler rectifier was analyzed using magnetic near-field leakage effect. Its equivalent circuit model, built by the dual relationship between magnetic circuit and electric circuit, can intuitively summarize the two prior integrated magnetics schemes. Distributions of AC and DC fluxes in the integrated magnetic core were analyzed in depth. The detailed operations under different near-field magnetic reluctances were discussed by gyrator-capacitor model. The prototype with 48V input and 12V/90W output was built for experimental verification and performance evaluation.

Key words： Near-field coupling current doubler rectifier integrated magnetics gyrator-capacitor model

收稿日期: 2009-10-10 出版日期: 2014-03-07

PACS:

TM55

基金资助:国家自然科学基金(50877010)和福建省自然科学基金(2009J01242) 资助项目

作者简介: 卢增艺男, 1979年生, 博士研究生, 研究方向为电力电子功率变换和电力电子高频磁技术等。陈为男, 1958年生, 教授, 博士生导师, 研究方向为电力电子功率变换、高频磁技术、电磁兼容诊断与滤波器、电磁场分析与应用和电磁检测等。

引用本文:

卢增艺, 陈为, 毛春风. 倍流整流DC-DC变换器近场耦合集成磁件分析[J]. 电工技术学报, 2011, 26(11): 92-98. Lu Zengyi, Chen Wei, Mao Chunfeng. Analysis of Integrated Magnetics Using Near-Field Coupling in DC-DC Converter with Current Doubler Rectifier. Transactions of China Electrotechnical Society, 2011, 26(11): 92-98.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2011/V26/I11/92

[1] Peng C, Hannigan M, Seiersen O. A new efficient high frequency rectifier circuit[C]. High Frequency Power Conversion, 1991: 236-243.
[2] Chen W, Hua G, Sable D, et al. Design of high efficiency, low profile, low voltage converter with integrated magnetics[C]. Proceedings of the IEEE Applied Power Electronics Conference , 1997: 911-917.
[3] Xu Peng, Wu Qiaoqiao, Wong Pit leong, et al. A novel integrated current doubler rectifier[C]. Proceedings of the IEEE Applied Power Electronics Conference, 2000: 735-740.
[4] Milton W, Bogue Gary L, Beutler Jon F. Dual transformer device for power converters: USA, 491456[P]. 1990-04-03.
[5] George Q Morris. Magnetically integrated full-wave DC to DC converter: USA, 5555494[P]. 1996-09-10.
[6] Marty Perry. Full-wave coupled inductor power converter having synchronous rectifiers and two input switches that are simultaneously off for a time period of each switching cycle: USA, 6765810[P]. 2004- 07-20.
[7] Ionel Jitaru. Transformer providing low output voltage: USA, 6400249[P]. 2002-06-04.
[8] Liang Yan, Dayu Q, Brad Lehman. Integrated magnetic full wave converter with flexible output inductor[J]. IEEE Transactions on Power Electronics, 2003, 18(2): 670-678.
[9] Sun Jian, Kenneth F Webb, Vivek Mehrotra. Integrated magnetics for current-doubler rectifiers[J]. IEEE Transactions on Power Electronics, 2004, 19(3): 582-590.
[10] Zhou Hua, Thomas X Wu, Issa Batarseh, et al. Comparative investigation on different topologies of integrated magnetic structures for current-doubler rectifier[C]. Proceedings of the IEEE Power Electronics Specialist Conference, 2007: 337-342.
[11] Njiende H, Froehleke N, Cronje W A. Modeling and analysis of integrated magnetic components[C]. Proceedings of the IEEE Power Electronics Specialist Conference, 2003: 283-288.
[12] Njiende H D, Frohleke N, Bocker J. Derivation of integrated magnetic components using reluctance and mathematical modeling[C]. Proceedings of the IEEE Power Electronics Specialist Conference, 2004: 4855- 4860.
[13] Lu Zengyi, Chen Wei. Coupled inductor using near-field coupling in multi-phase VRM applications[C]. Proceedings of the IEEE International Power Electronics and Motion Control Conference, 2009: 737-740.