Frequency Doubling Power Supply for Induction Heating Based on Center-Tapped Transformer
Lu Hua1, Hu Jingang1, Bi Chuang2, Xiang Yong1
1. School of Energy Science and Engineering University of Electronic Science and Technology Chengdu 611731 China; 2. School of Aeronautics and Astronautics University of Electronic Science and Technology of China Chengdu 611731 China
Abstract:A novel multiple-frequency power supply is proposed for high frequency high power induction heating appliances based on center-tapped transformer. Its output frequency is as twice as the device frequency, by using two symmetrical half bridges, sharing two equal resonant capacitances and coupling with center-tapped transformer. Each power switch has zero voltage switch (ZVS) soft switching characteristic, and its conduction time is only a quarter of switching cycle. Thus the power consumption of the switches decrease significantly compared with the traditional inverter. The eight operation modes are analyzed, and the design methods of circuit parameters are also present. Taken IGBT as power switches, a prototype is designed to verify the power supply topology, the theoretical analysis and the circuit parameter selection method.
卢华, 胡金刚, 毕闯, 向勇. 基于中心抽头变压器的倍频感应加热电源[J]. 电工技术学报, 2016, 31(24): 188-194.
Lu Hua, Hu Jingang, Bi Chuang, Xiang Yong. Frequency Doubling Power Supply for Induction Heating Based on Center-Tapped Transformer. Transactions of China Electrotechnical Society, 2016, 31(24): 188-194.
[1] 王启涵, 姚缨英, 陈卫宝. 电磁感应加热中加热物体位置的选择[J]. 电工技术学报, 2011, 26(6): 160-165. Wang Qihan, Yao Yingying, Chen Weibao. Selection of heating object’s position in electromagnetic induction heating[J]. Transactions of China Electro- technical Society, 2011, 26(6): 160-165. [2] Bayindir N S, Kükrer O, Yakup M. DSP-based PLL controlled 50-100kHz 20kW high frequency induction heating system for surface hardening and welding applications[J]. IEE Proceedings-Electric Power Applications, 2003, 150(3): 365-371. [3] Zok E, Schibisch D M. Energy efficient power supply for induction hardening and heating processes[J]. Induction Technology Reports, 2013(1): 67-74. [4] 李宏, 贺昱曜, 王崇武. 一种全桥负载串联谐振逆变器谐振频率跟踪和输出功率控制方法[J]. 电工技术学报, 2010, 25(7): 93-99. Li Hong, He Yuyao, Wang Chongwu. A new method of frequency tracking and output power control for full bridge series load resonant inverter[J]. Transactions of China Electrotechnical Society, 2010, 25(7): 93-99. [5] Lucia O, Burdio J M, Millan I, et al. Efficiency- oriented design of ZVS half-bridge series resonant inverter with variable frequency duty cycle control[J]. IEEE Transactions on Power Electronics, 2010, 25(7): 1671-1674. [6] Zied H A, Mutschler P, Bachmann G. A modular IGBT converter system for high frequency induction heating applications[C]//23rd International Conference and Exhibition on Power Electronics, Intelligent Motion, Power Quality, Europe, 2002. [7] 李时峰, 吕默影, 陈辉明. 一种新型超高频感应加热混合全桥逆变器[J]. 电工技术学报, 2013, 28(3): 215-221. Li Shifeng, Lü Moying, Chen Huiming. A novel hybrid full-bridge inverter for ultra-high frequency induction heating applications[J]. Transactions of China Electrotechnical Society, 2013, 28(3): 215- 221. [8] Mollov S V, Theodoridis M, Forsyth A J. High frequency voltage-fed inverter with phase-shift control for induction heating[J]. IEE Proceedings- Electric Power Applications, 2004, 151(1): 12-18. [9] Kleveland F, Undeland T M, Langelid J K. Increase of output power from IGBTs in high power high frequency resonant load inverters[C]//Industry App- lications Conference Record of the 2000 IEEE, Rome, 2000: 2909-2914. [10] 熊一频, 沈锦飞, 初中原. 基于IGBT倍频式180kHz感应加热电源研究[J]. 电力电子技术, 2008, 42(11): 58-59. Xiong Yipin, Shen Jinfei, Chu Zhongyuan. Research on an 180kHz double frequency induction heater based on IGBT power electronics[J]. Power Elec- tronics, 2008, 42(11): 58-59. [11] Zhu Z Q, Wu L J, Xia Z P. An accurate subdomain model for magnetic field computation in slotted surface-mounted permanent-magnet machines[J]. IEEE Transactions on Magnetics, 2010, 46(4): 1100- 1115. [12] 吴靖, 王正仕, 赵荣祥, 等. 倍频式高频感应力加热电源工作模式[J]. 电工技术学报, 2007, 22(2): 153-158. Wu Jing, Wang Zhengshi, Zhao Rongxiang, et al. Working method of double-frequency mode high frequency induction-heating power supply[J]. Transa- ctions of China Electrotechnical Society, 2007, 22(2): 153-158. [13] Kazimierczuk M K, Czarkowski D. Resonant power converters[M]. New Jersey: John Wiley & Sons, 2012. [14] 李定宣, 丁曾敏. 现代感应加热电源工程设计与应用[M]. 北京: 中国电力出版社, 2010.