一种用于LED照明中的组合式Boost-Cuk变换器
A Combined-Type Boost-Cuk Converter for LED Lighting System
DOI: 10.12677/IaE.2014.22002, PDF, HTML,  被引量 下载: 2,699  浏览: 9,107 
作者: 王 琳, 章家岩, 胡雪峰:安徽工业大学,电气与信息工程学院,马鞍山
关键词: LED驱动直流变换器拓扑Boost电路Cuk电路
摘要: 本文提出了一种基于Boost拓扑与Cuk拓扑有机组合思路的适用于LED照明系统中的组合式Boost-Cuk变换器,Boost环节与Cuk环节共用输入支路,使该变换器通过一个开关管同时实现两路输出,一路输出为Boost型,另一路输出为Cuk型。Boost环节与Cuk环节的输出串联,提高了该变换器的输出电压增益。为了灵活控制输出,只需一个控制器便可以实现多种方式的输出。仿真结果证明该拓扑结构性能与理论分析一致。
Abstract: A Combined-type Boost-Cuk converter for LED lighting system was proposed based on the combi-nation of Boost and Cuk topologies. The converter using a switch can simultaneously achieve two kinds of output by sharing the branch of the input side of the two topologies mentioned. One of the outputs for the converter is Boost-type, and the other one is the Cuk-type. The voltage gain of the converter is improved with the output of Boost and Cuk topologies proposed in series connected. In order to control the output, only one controller can achieve the output in various ways. The si-mulation results are given to verify the consistence between the performance and theoretical analysis of the topology.
文章引用:王琳, 章家岩, 胡雪峰. 一种用于LED照明中的组合式Boost-Cuk变换器[J]. 仪器与设备, 2014, 2(2): 11-18. http://dx.doi.org/10.12677/IaE.2014.22002

参考文献

[1] Hu, Y.Q. and Jovanovic, M.M. (2008) A Novel LED Driver with Adaptive Drive Voltage. IEEE Applied Power Elec-tronics Conference and Exposition (APEC), Texas, 24-28 February 2008, 565-571.
[2] 廖志凌, 阮新波 (2006) 半导体照明工程的现状与发展趋势. 电工技术学报, 21, 106-111.
[3] Krames, M.R., Shchekin, O.B. and Mueller, M.R. (2007) Status and future of high-power light-emitting diodes for solid-state lighting. Journal of Display Technology, 3, 160-175.
[4] Chuang, Y.C., Ke, Y.L., Chuang, H.-S. and Hu, C.-C. (2010) Single-stage power-factor-correction circuit with flyback converter to drive LEDs for lighting applications. IEEE Industry Applications Society Annual Meeting, Houston, 3-7 October 2010, 1-9.
[5] Patterson, J. and Zane, R. (2008) Series input modular architecture for driving multiple LEDs. IEEE Power Electronics Specialists Conference, Rhodes, 15-19 June 2008, 2650-2656.
[6] Hu, Y.Q., Huber, L. and Jovanovic, M. (2009) Single stage flyback power factor correction front-end for HB LED application. IEEE Industry Applications Society Annual Meeting, Houston, 4-8 October 2009, 1-8.
[7] Van Der Broeck, H., Sauerlander, G. and Wendt, M. (2007) Power driver topologies and control schemes for LEDs. IEEE Applied Power Electronics Conference, California, 25 February 2007-1 March 2007, 1325.
[8] Wang, B.B., Ruan, X.B. and Yao, K. (2010) A method of reducing the peak to average ratio of LED current for electrolytic capacitor less AC-DC drivers. IEEE Transactions on Power Electronics, 25, 592-601.
[9] Arias, M., Lamar, D.G., Linera, F.F., Balocco, D., Diallo, A.A. and Sebastia, J. (2012) Design of a soft-switching asymmetrical half-bridge converter as second stage of an LED driver for street lighting application. IEEE Transactions on Power Electronics, 27, 1608-1621.
[10] Hu, Y. and Javanovic, M.M. (2008) LED driver with self-adaptive drive voltage. IEEE Transactions on Power Electronics, 23, 3116-3125.
[11] 毛兴武, 张艳雯, 周建军 (2008) 新一代绿色光源LED及其应用技术. 人民邮电出版社, 北京, 233-266.
[12] 杨光 (2007) LED应用的连接形式及特点. 灯与照明, 31, 34-36.

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