Multi-Level Control Strategy of Wide Input LLC Resonant Converter
Li Haoyu1, Li Zhenwei1,2, Zhao Lei1, Zhang Jihong1
1. School of Electrical Engineering and Automation Harbin Institute of Technology Harbin 150001 China; 2. College of Automation & Electronic Engineering Qingdao University of Science & Technology Qingdao 266042 China
Abstract:In order to meet the requirements of high efficiency and the wide range of input voltage adaptability, a multi-level operating mode half-bridge LLC is obtained. It can operate in two different modes according to the level of input voltage by adjusting the control strategy of three-level LLC resonant converter. The adaptable range of input voltage is hence doubled with the same parameters of resonant elements. The limiting factors on adaptable range of input voltage are defined based on the analysis of the voltage gain characteristics and power loss of LLC converter. After analyzing the multi-level operating mode and its influence on the adaptable range of input voltage, the control strategy is defined. Simulation and experimental results verify that the multi-level operating mode half-bridge LLC has wide input adaptability and high efficiency.
[1] Yang B, Lee F C, Zhang A J, et al. LLC resonant converter for front end DC/DC conversion[C]// Applied Power Electronics Conference and Exposition, Dallas, TX, 2002: 1108-1112. [2] Shrivastava A, Singh B. LLC series resonant con- verter based LED lamp driver with ZVS[C]//Power India Conference, Murthal, 2012: 1-5. [3] Guo W, Bai H, Szatmari-Voicu G, et al. A 10kW 97% efficiency LLC resonant DC/DC converter with wide range of output voltage for the battery chargers in plug-in hybrid electric vehicles[C]//Transportation Electrification Conference and Expo, Dearborn, MI, 2012: 1-4. [4] 王春芳, 徐勤超. 变频微波炉电源用LLC谐振变换器[J]. 电工技术学报, 2012, 27(6): 103-110. Wang Chunfang, Xu Qinchao. Study of LLC resonant converter for variable-frequence microwave oven power supply[J]. Transactions of China Electro- technical Society, 2012, 27(6): 103-110. [5] 陈启超, 王建赜, 纪延超. 双向LLC谐振型直流变压器的软启动及功率换向控制[J]. 电工技术学报, 2014, 29(8): 180-186. Chen Qichao, Wang Jianze, Ji Yanchao. Control scheme of bidirectional LLC resonant DC-DC trans- former for soft start and power conversion[J]. Transactions of China Electrotechnical Society, 2014, 29(8): 180-186. [6] 马红波, 刘文军, 邱忠才, 等. 基于LLC谐振变换器的准单级式悬浮控制电源[J]. 电工技术学报, 2014, 29(增1): 210-218. Ma Hongbo, Liu Wenjun, Qiu Zhongcai, et al. Quasi-single-stage power supply based on LLC topo- logy for magnetic levitation control system appli- cations[J]. Transactions of China Electrotechnical Society, 2014, 29(S1): 210-218. [7] Chung B, Yoon K, Phum S, et al. A novel LLC resonant converter for wide input voltage and load range[C]//Power Electronics and ECCE Asia, Jeju, Korea, 2011: 2825-2830. [8] Gu Y, Lu Z, Hang L, et al. Three-level LLC series resonant DC/DC converter[J]. IEEE Transactions on Power Electronics, 2005, 20(4): 781-789. [9] 陈威, 吕征宇. 一种新颖的三电平全桥谐振型软开关DC/DC变流器[J]. 电工技术学报, 2008, 23(3): 52-59. Chen Wei, Lü Zhengyu. A novel three level full bridge resonant DC/DC converter suitable for high power wide range input applications[J]. Transactions of China Electrotechnical Society, 2008, 23(3): 52-59. [10] 张亮, 水恒华, 安薇薇, 等. T型三电平DC-DC变换器PWM脉冲调制方式[J]. 电工技术学报, 2014, 29(增1): 333-337. Zhang Liang, Shui Henghua, An Weiwei, et al. A PWM modulation scheme designed for T-type three level DC-DC converter[J]. Transactions of China Electrotechnical Society, 2014, 29(S1): 333-337. [11] Lee I, Moon G. Analysis and design of a three-level LLC series resonant converter for high and wide- input-voltage applications[J]. IEEE Transactions on Power Electronics, 2012, 27(6): 2966-2979. [12] 张建国, 白玉新, 解庆, 等. 宽电压输入范围的自动垂直钻井系统电源模块设计[J]. 石油仪器, 2011, 25(1): 13-15. Zhang Jianguo, Bai Yuxin, Xie Qing, et al. Wide input voltage of the automatic vertical drilling system power supply module design[J]. Petroleum Instru- ments, 2011, 25(1): 13-15. [13] Barbi I, Redl R, Sokal N O. DC-DC converter: four switches V pk = V in /2, capacitive turn-off snubbing, ZV turn-on[J]. IEEE Transactions on Power Electronics, 2004, 19(4): 918-927. [14] 李菊, 阮新波. 全桥LLC谐振变换器的混合式控制策略[J]. 电工技术学报, 2013, 28(4): 72-80. Li Ju, Ruan Xinbo. Hybrid control strategy of full bridge LLC converters[J]. Transactions of China Electrotechnical Society, 2013, 28(4): 72-80. [15] 马皓, 祁丰. 一种改进的LLC变换器谐振网络参数设计方法[J]. 中国电机工程学报, 2008, 28(33): 6-11. Ma Hao, Qi Feng. An improved design method for resonant tank parameters of LLC resonant con- verter[J]. Proceedings of the CSEE, 2008, 28(33): 6-11. [16] 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): 163-169. Chen Shen, Lü Zhengyu, Yao Wei. Research and verification on LLC resonant soft switching DC-DC transformer[J]. Transactions of China Electro- technical Society, 2012, 27(10): 163-169. [17] 颜冲, 何俊, 郭晓东. 不同激励条件对铁氧体磁心损耗的影响[J]. 磁性材料及器件, 2011, 42(2): 37-42. Yan Chong, He Jun, Guo Xiaodong. Influence of different excitation waveforms on ferrite core loss[J]. Journal of Magnetic Materials and Devices, 2011, 42(2): 37-42. [18] Shaik M, Kankanala R. Digital compensator design for LLC resonant converter[OL]. Microchip Tech- nology Inc, 2012, DS01477A: 4-7. [19] Yang E X, Lee F C, Jovanovic M M. Small-signal modeling of series and parallel resonant converters[C]// Applied Power Electronics Conference and Exposi- tion, Boston, MA, 1992: 785-792.
2017, Vol. 32 
