适用于宽输入电压范围的变拓扑变流器

doi:10.3785/j.issn.1008-973X.2011.03.013

2011, Vol. 45

Issue (3): 472-479 DOI: 10.3785/j.issn.1008-973X.2011.03.013

电气工程

适用于宽输入电压范围的变拓扑变流器

戎萍,陈威,邓哲,顾亦磊,吕征宇

浙江大学电气工程学院,浙江杭州310027

Variable topology converter dedicated to wide input range applications

RONG Ping, CHEN Wei, DENG Zhe, GU Yi-lei, LU Zheng-yu

College of Electrical Engineering, Zhejiang University, Hangzhou 310027, China

全文: PDF HTML

摘要：

针对宽输入电压范围应用场合下的全电压范围内效率优化问题,提出变拓扑变流器的思想方法及其基本概念和主要性质,该变拓扑变流器不但兼顾了各种应用环境下变流器的综合性能,而且有效减小了变流器元器件总数、降低了成本并节省设计流程,从而达到电源模块标准化的既定要求.通过对拓扑对偶和同构性质的研究,提出变拓扑变流器的子电路寻求方式,并研究了最简切换实现电路的数学模型和切换策略.以2个应用在宽输入电压范围场合的变拓扑变流器样机为例，说明了变拓扑变流器概念和理论的正确性和有效性,验证了变拓扑变流器在宽输入电压范围下的性能提升以及在器件、控制策略兼容等方面所拥有的诸多实际益处.

Abstract:

Variable Topology converter (VTC), together with its basic concept and main properties, were presented to optimize converter's efficiency under wide input range applications. The proposed VTC can not only pursue the optimized converter's performance over all kinds of applications, but also significantly decrease the total component number count, lower cost and simplify the design process. Sub-topology exploration was studied through topologies' characteristics of duality and isomorphism. The mathematical model of sub-topology shift and the control strategy were also discussed. Then two prototypes, which adopt the concept of VTC and suitable for wide input voltage range application, verify the validity and applicability of the concept of VTC, and as well show the applied improvements in the converter's performance and the compatibility of circuit components and control strategies.

出版日期: 2012-03-16

TM 46

基金资助:

国家自然科学基金资助项目(50677063ZD).

通讯作者: 吕征宇，男，教授，博导. E-mail: eeluzy@cee.zju.edu.cn

作者简介: 戎萍(1974-)，女，浙江宁波人，硕士生，从事拓扑软开关和变拓扑柔性变流器的研究.

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

引用本文:

戎萍,陈威,邓哲,顾亦磊,吕征宇. 适用于宽输入电压范围的变拓扑变流器[J]. J4, 2011, 45(3): 472-479.

RONG Ping, CHEN Wei, DENG Zhe, GU Yi-lei, LU Zheng-yu. Variable topology converter dedicated to wide input range applications. J4, 2011, 45(3): 472-479.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2011.03.013 或 http://www.zjujournals.com/eng/CN/Y2011/V45/I3/472

［1］钱照明, 张军明, 吕征宇. 电力电子系统集成［J］. 中国集成电路, 2003, 50: 39-45．
QIAN Zhaoming, ZHANG Junming, LU Zhengyu. Power electronics system integration［J］. China Integrated Circuit, 2003, 50: 39-45.
［2］ LEE F C, PENG D. Power electronics building block and system integration［C］∥IEEE IPEMC.Beijing:IEEE,2000, 1: 1-8．
［3］ LEE F C, XU M, WANG S. Design challenges for distributed power systems［C］∥IEEE IPEMC.Shanghai:IEEE,2006, 1: 1-15．
［4］蔡慧,赵荣祥.电力电子分布式控制体系与系统集成［J］. 浙江大学学报:工学版,2006,40(6): 1036-1040．
CAI Hui, ZHAO Rongxiang. Distributed power control architecture and system integration［J］. Journal of Zhejiang University: Engineering Science,2006, 40(6):1036-1040.
［5］ JAMES D. A constant power rectifier for telecommunications using a novel variable turns ratio transformer［C］∥IEEE INTELEC.Melbourne:IEEE, 1997: 251-256．
［6］邢岩, 黄立培, 孙晓东. 组合式前端DCDC变换器［J］. 中国电机工程学报, 2004, 24(6): 157-161．
XING Yan, HUANG Lipei, SUN Xiaodong.A combined topology with backup boost and asymmetrical half bridge for front end DCDC converter［J］. Proceedings of the CSEE, 2004, 24(6): 157-161.
［7］ GINN H L, CHEN G. PEBB based multifunctional shunt voltage sourced converters［C］∥IEEE IECON. Taipei:IEEE,2007: 1937-1942．
［8］ HIARAHI K, YAMANAKA M, TAKADA T. Feasible developments of utilityinteractive multifunctional bidirectional converter for solar photovoltaic generating system incorporating storage batteries［C］∥ IEEE PESC.Atlanta:IEEE,1995, 1: 536-541．
［9］ YANG B, XU P, LEE F C. Range winding for wide input range front end DC/DC converter ［C］∥IEEE APEC.California:IEEE,2001, 1: 476-479．
［10］ WANG X C, TIAN F, BATARSEH I. High efficiency parallel post regulator for wide range input DC–DC converter［J］. Power Electronics, IEEE Transactions on,2008, 23(2): 852-858．
［11］ JANG Y, JOVANOVIC M M, DILLMAN D L. Holdup time extension circuit with integrated magnetics［J］. Power Electronics, IEEE Transactions on,2006, 21(2): 394-400．
［12］ XU P, WEI J, LEE F C. The activeclamp couplebuck convertera novel high efficiency voltage regulator modules［C］∥IEEE APEC.California:IEEE,2001, 1: 252-257．
［13］蔡宣三. 直流隔离开关变换网络的对偶性研究［J］. 计算机研究与发展, 1989, 26(5): 16-22．
CAI Xuansan. On the duality of DC isolated switching converter［J］. Journal of Computer Research and Development, 1989, 26(5): 16-22.
［14］孙士乾, 孙时春. 对偶原理及其在直流—直流变换器中的应用［J］. 浙江大学学报:工学版, 1991, 25(6): 705-713．
SUN Shiqian, SUN Shicun. Duality principle and its applications in DCDC converter［J］. Journal of Zhejiang University：Engineering Science, 1991,25(6): 705-713.

［15］石勇, 杨旭, 何群,等. 同构混合开关拓扑的辨识［J］. 中国电机工程学报,2003, 23(11): 116-121．
SHI Yong, YANG Xu, HE Qun, et al. Identification of isomorphic hybrid switching topology［J］. Proceedings of the CSEE, 2003, 23(11): 116-121.
［16］卢开澄, 卢华明. 图论及其应用［M］. 北京: 清华大学出版社, 1995:1-20.
［17］臧威, 李锋. 任意图的同构判定算法: 特征向量法［J］. 计算机辅助设计与图形学学报, 2007, 19(2): 163-167．
ZANG Wei, LI Feng. Isomorphism testing algorithm for arbitrary graphsthe eigenvectorbased method［J］. Journal of ComputerAided Design & Computer Graphics,2007, 19(2):163-167.
［18］丁磊, 潘贞存, 丛伟. 基于有根树的分布式发电孤岛搜索［J］. 国电机工程学报,2008, 28(25): 62-67．
DING Lei, PAN Zhencun, CONG Wei. Searching for intentional islanding strategies of distributed generation based on rooted tree［J］. Proceedings of the CSEE,2008, 28(25): 62-67．
［19］ CHEN W, RONG P, LU Z Y, et al. A aovel ZVZCS L2CType parallel resonant converter with a separated resonant Tank［C］∥IEEE APEC.Washington DC:2009:1046-1052．
［20］ NAKAOKA M, MICHIHIRA M, HAMADA S, et al. A new generic family of saturable reactorassisted softswitching PWM DCDC converters for highpower density distributed power systems［C］∥IEEE INTELEC .Washington DC:IEEE, 1992: 306-315.

[1]	廖政伟, 张雪, 尤伟, 姚玮, 吕征宇. 应用于超宽输入范围的变拓扑LLC电路[J]. J4, 2013, 47(12): 2073-2079.
[2]	郑晟, 蔡卓剑, 汪槱生, 钱照明. 适用于IGBT串联系统集成的驱动电路[J]. J4, 2013, 47(12): 2094-2100.
[3]	朱明磊,赵荣祥. 基于快速分布式主从控制的PCS系统[J]. J4, 2013, 47(11): 2031-2037.
[4]	孟培培, 张军明, 钱照明. Boost变流器共模传导干扰建模与预测[J]. J4, 2012, 46(10): 1851-1856.
[5]	孟培培,张军明,陈恒林,钱照明. 反激变流器共模干扰的建模与预测[J]. J4, 2012, 46(9): 1702-1707.
[6]	王仕韬, 张达敏, 吕征宇, 张德华. 具有快速电流动态响应的晶闸管整流控制器[J]. J4, 2012, 46(2): 189-193.
[7]	陈威, 吕征宇. 新颖软开关推挽LLC谐振变流器及其拓扑延拓[J]. J4, 2010, 44(8): 1540-1547.
[8]	陈威, 吕征宇. 新颖软开关谐振复位宽范围双管正激变流器[J]. J4, 2010, 44(5): 1025-1031.
[9]	顾亦磊, 陈威, 吕征宇. 柔性变流器及其应用[J]. J4, 2010, 44(3): 521-527.
[10]	刘军, 石健将, 张仲超, 何湘宁. 并联谐振变流器电流断续模式的应用[J]. J4, 2010, 44(3): 516-520.

Viewed

Full text

Abstract

Cited

Shared

Discussed