极端条件下输入串联输出并联直流变换器均压控制策略

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (999 KB)
输出: BibTeX | EndNote (RIS)

摘要输入串联输出并联直流变换器十分适用于高输入电压、大功率的直流变换场合。要保证该变换器正常工作, 就必须保证输入电压均压与输出电流均流。然而现有的控制策略在轻载以及短路等极端情况下无法实现均压, 导致模块间不平衡工作, 甚至损坏输入电压过高的模块。本文首先从能量的角度出发分析极端条件下不均压的原因, 然后对输入均压控制策略进行改进, 改进方案在保留原有控制策略优点的同时, 实现了轻载时的输入均压以及短路时的模块输出电流限流。在此基础上, 进一步提出一种功率可调的辅助电路, 对改进的控制策略进行补充, 简单有效地将模块输入电压抑制在允许范围内。实验结果验证了控制策略以及辅助电路的有效性。

	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
	颜红
	阮新波
	陈武

关键词 ：输入串联输出并联, 均压, 均流, 极端条件, 空载, 短路

Abstract：Input-series and output-parallel (ISOP) converter is very suitable for high input voltage and high power applications. Input voltage sharing (IVS) and output current sharing (OCS) of the modules among the ISOP converter should be ensured. Firstly this paper analyzes the reasons resulting in un-sharing input voltage of the ISOP converter under extreme conditions, then improves input voltage sharing control strategy to realize the input voltage sharing at light-load and output current limiting at short circuit, and a power-adjustable auxiliary circuit is introduced to keep the module input voltage within limits easily and effectively. The experimental results are presented to verify the effectiveness of the proposed control strategies and auxiliary circuit.

Key words： Input-series and output-paralleled voltage sharing current sharing extreme conditions no-load short circuit

收稿日期: 2008-10-20 出版日期: 2014-02-18

PACS:

TM463

基金资助:霍英东教育基金会高等院校青年教师基金（91058）和台达电力电子科教发展基金资助项目

作者简介: 颜红女, 1979年生, 硕士研究生, 研究方向为功率电子变换技术。阮新波男, 1970年生, 教授, 博士生导师, 研究方向为高频软开关直-直变换器、高频软开关逆变器、变换器的建模分析和电力电子集成系统。

引用本文:

颜红, 阮新波, 陈武. 极端条件下输入串联输出并联直流变换器均压控制策略[J]. 电工技术学报, 2009, 24(12): 88-94. Yan Hong, Ruan Xinbo, Chen Wu. Input Voltage Sharing Control Strategy for Input-Series and Output-Parallel Converter Under Extreme Conditions. Transactions of China Electrotechnical Society, 2009, 24(12): 88-94.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2009/V24/I12/88

[1] Manias S N, Kostakis G. Modular DC-DC converter for high-output voltage applications[J]. IEEE Trans. on Power Electronics, 1993, 140 (2): 97-102.
[2] Kim J W, You J S, Cho B H. Modeling, control, and design of input-series-output-parallel connected converter for high-speed-train power system[J]. IEEE Trans. on Ind. Electron., 2001, 48(3): 536-544.
[3] 石健将, 严仰光, 何湘宁. 一种具有输入端电容均压的串-并型双管正激组合变换器研究[J]. 中国电机工程学报, 2004, 24(12): 92-97.
[4] 马学军, 刘金红, 康勇. 输入串联输出并联的双全桥变换器输入电容均压问题的研究[J]. 中国电机工程学报, 2006, 26(16): 86-91.
[5] Kim J W, You J S, Cho B H．Input series-output parallel connected converter for high voltage power conversion applications employing charge control[C]. Intersociety Energy Conversion Engineering Conference, 1999: 2593-2599.
[6] Kim J W, Choi H S, Cho B H. A novel droop method for converter parallel operation[J]. IEEE Transactions on Power Electronics, 2002, 17(1): 25-32.
[7] Giri R, Ayyanar R, Ledezma E. Input-series and output-series connected modular dc-dc converters with active input voltage and output voltage sharing[C]. IEEE APEC, 2004: 1751-1756.
[8] Chen W, Ruan X. Modularization structure for series-parallel connected converters[C]. IEEE APEC, 2008: 1531-1535.
[9] Giri R, Ayyanar R, Mohan N. Common duty ratio control of input series connected modular DC-DC converters with active input voltage and load current sharing[C]. IEEE APEC, 2003: 322-326.
[10] Bhinge A, Mohan N, Giri R, et al. Series parallel connection of dc-dc converter modules with active sharing of input voltage and load current[C]. IEEE APEC, 2002: 648-653.
[11] Giri R, Ayyanar R, Ledezma E. Input-series and output-series connected modular dc-dc converters with active input voltage and output voltage sharing[C]. IEEE APEC, 2004: 1751-1756.
[12] 章涛, 阮新波. 输入串联输出并联全桥变换器的均压均流的一种方法[J]. 中国电机工程学报, 2005, 25(24): 47-50.
[13] Ayyanar R, Giri R, Mohan N. Active input-voltage and load-current sharing in input-series and output-parallel connected modular DC-DC converters using dynamic input-voltage reference scheme[J]. IEEE Trans. on Power Electronics, 2004, 19 (6): 1462-1473.
[14] Ruan X, Cheng L, Zhang T. Control strategy for input-series output-paralleled converter[C]. IEEE PESC, 2006: 238-245.
[15] Phase shift resonant converter UC3895[M]. Product & Applications Hand Book, Unitrode Integrated Circuit, 2000-2001.