基于LLC直流变压器（LLC-DCT）效率优化的死区时间与励磁电感设计

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摘要对于传统PWM变换器,死区时间越小,效率越高,而谐振变换器并非如此。本文针对LLC谐振式直流变压器（LLC-DCT）,通过推导LLC拓扑损耗与死区时间的定量关系,提出了一种基于死区时间和励磁电感最优解的LLC谐振参数设计方法。从而选取最佳死区时间和励磁电感,得到最优化的整机效率,避免了先前设计中死区时间选取的盲目性。同时,根据工作在直流变压器下的LLC特点,分析了励磁电感与谐振电感比值和品质因素的选取。最后,研制了一台基于该优化设计方案的150W LLC-DCT样机,实验结果表明了设计方法的有效性和准确性。

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关键词 ： LLC-DCT, 死区时间最优解, 效率优化, 中转母线变换器

Abstract：For the conventional PWM converters, the smaller dead time, the higher efficiency, but the resonant converters are not so. Based on DC transformer(DCT) of the LLC resonant topology, this paper proposes a design for resonance parameters based on optimal solution between the dead time and magnetizing inductance. Through the selection of the dead time and magnetizing inductance, it can obtain the optimum efficiency. At the same time, according to the characteristics of LLC-DCT, the selection of the ratio of magnetizing inductance to resonant inductance and the quality factor are discussed. Finally, a 150W the LLC-DCT prototype is designed on mentioned approach. The experimental results show the effectiveness and accuracy of the design method.

Key words： LLC-DCT optimal solution for dead time optimum efficiency immediate bus converter

收稿日期: 2013-05-08 出版日期: 2014-11-05

PACS:

TM41

作者简介: 任仁男,1990年生,博士,研究方向为功率电子变换。张方华男,1976年生,教授,博士生导师,研究方向为航空电源、照明电源和新能源发电系统。

引用本文:

任仁, 张方华, 刘硕. 基于LLC直流变压器（LLC-DCT）效率优化的死区时间与励磁电感设计[J]. 电工技术学报, 2014, 29(10): 141-146. Ren Ren, Zhang Fanghua, Liu Shuo. Optimal Design for Efficiency Based on the Dead Time and Magnetizing Inductance of LLC DC Transformer. Transactions of China Electrotechnical Society, 2014, 29(10): 141-146.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2014/V29/I10/141

[1] Lu Bing, Liu Wenduo, Liang Yan, et al. Optimal design methodology for LLC resonant converter[C]. IEEE Applied Power Electronics Conference and Exposition, 2006: 553-538.
[2] Yu Ruiyang, Ho Godwin Kwun Yuan, Pong Bryan Man Hay, et al. Computer-aided design and optimization of high-efficiency LLC series resonant converter[J]. IEEE Transaction on Power Electronics, 2012, 27(7): 3243-3256.
[3] 王镇道, 赵亚魁, 章兢. LLC半桥式谐振变换器参数模型与设计[J]. 电工技术学报, 2012, 27(12): 51-54. Wang Zhendao, Zhao Yakui, Zhang Jing, et al. Parameter model and design for LLC resonant half- bridge converter[J]. Transactions of China Electro- technical Society, 2012, 27(12): 51-54.
[4] 陈申, 吕征宇, 姚玮. LLC谐振型软开关直流变压器的研究与实现[J]. 电工技术学报, 2012, 27(10): 163-167. Chen Shen, Lü Zhengyu, Yao Wei. Research and verification on LLC resonant soft switching DC-DC transformer[J]. Transactions of China Electrotechnical Society, 2012, 27(12): 163-167.
[5] Adragna C, De Simone S. Designing LLC resonant converters for optimum efficiency[C]. 13th European Conference on Power Electronics and Applications, 2009: 1-10.
[6] Yu Ruiyang, Ho Godwin, Kwun Yuan, et al. Computer- aided design and optimization of high-efficiency LLC series resonant converter[J]. IEEE Transaction on Power Electronics, 2012, 27(7): 3243-3256.
[7] Sihun Yang, S Shoyama M. Parametric analysis of LLC resonant converter using flat transformer for loss reduction[C]. 14th International Power Electronics and Motion Control Conference, 2010, T2-204-T2-209.
[8] Fang Y, Xu D, Zhang Y, et al. Design of high power density LLC resonant converter with extra wide input range[C]. Twenty-Second Annual IEEE Applied Power Electronics Conference, APEC 2007: 976-981.
[9] Lee J Y, Jeong Y S, Chae H J, et al. Two-stage insulated bidirectional DC/DC power converter using a constant duty ratio LLC resonant converter: U. S., 2011/0090717A1[P]. 2011-4-21.
[10] Ryu B W, Moon G W, Choi S W, et al. Adapter power supply: U. S., 2012/0069603A1[P]. 2012-3-22.
[11] Vinciarelli P. Factorized power architecture with point of load sine amplitude converters: U. S., 6984965B2 [P]. 2006-01-10.
[12] Zwerver H J. Automatic frequency control for series resonant switched mode power supply: U. S., 2009/ 0115381A1[P]. 2009-03-07.
[13] Weiyi Feng, Paolo Mattavelli, Fred C Lee. Pulse width locked loop (PWLL) for automatic resonant frequency tracking in LLC DC-DC transformer (LLC- DCX)[J]. IEEE Transaction on Power Electronics, 2013, 28(4): 1862-1869.
[14] Heng H, Pei Y, Yang X, et al. Frequency tracking control for cap-charging parallel resonant converter with phase-locked loop[C]. Proceedings of IEEE Applied Power Electronics Conference, 2007: 1287- 1292.
[15] Yan Y, Shirazi M, Zane R. Electronic ballast control IC with digital phase control and lamp current regulation[J]. IEEE Transaction on Power Electronics, 2008, 23(1): 11-18.