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Analysis of multiple resonant operating points and their autonomous oscillation stabilities in inductive power transfer systems

Tang Chun-Sen Sun Yue Dai Xin Wang Zhi-Hui Su Yu-Gang Hu Ai-Guo

Analysis of multiple resonant operating points and their autonomous oscillation stabilities in inductive power transfer systems

Tang Chun-Sen, Sun Yue, Dai Xin, Wang Zhi-Hui, Su Yu-Gang, Hu Ai-Guo
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  • In this paper we determine multiple resonant operating points (ROPs) of inductive power transfer (IPT) systems and perform the corresponding stability analysis of a series-tuned IPT system, which is taken for example, through using nonlinear dynamics theories. The stroboscopic mapping model of the system is built and a piecewise analytical function of the steady-state response is derived with the fixed-point theory. Then a criterion for assessing the system ROPs is given mathematically. The stability analysis of ROPs is achieved according to the locations of the eigenvalues of the Jacobi matrix of the Poincare mapping model of the system. A case study of the phenomenon of multiple ROPs is conducted, and both simulation and experimental results verify the theoretical results of the proposed method. Furthermore, the proposed method can provide useful theoretical reference for modeling and steady-state analysing other similar resonant converters.
    • Funds:
    [1]

    Ping S 2008 Ph. D. Dissertation (Auckland: The Univeristy of Auckland)

    [2]

    Yang Z, Liu W T, Basham E 2007 IEEE Trans. Magn. 43 3851

    [3]

    Covic G A, Boys J T, Lu H G 2006 Proceedings of the 1st IEEE Conference on Industrial Electronics and Applications Singapore, May 24—26, 2006 p466

    [4]

    Dehennis A D, Wise K D 2005 Journal of Microelectromechanical Systems 14 12

    [5]

    Green A W, Boys J T 1994 Proceedings of the 5th International Conference on Power Electronics and Variable-Speed Drives London, UK, Oct 26—28, 1994 p694

    [6]

    Su Y G, Tang C S, Wu S P, Sun Y 2006 Proceedings of the International Conference on Power System Technology Chongqing, China Oct 22—26, 2006 p794

    [7]

    Tang C S, Sun Y, Su Y G, Nguang S K, Hu A P 2009 IEEE Trans. Power Electron. 24 416

    [8]

    Wang C S, Covic G A, Stielau O H 2004 IEEE Trans. Power Electron. 19 995

    [9]

    Sun Y, Hu A P, Dai X, Su Y G. 2004 Proceedings of the International Conference on Power System Technology Singapore, Nov 21—24, 2004 p1015

    [10]

    Dai X, Huang X Y, Sun Y 2006 Transactions of China Electrotechnical Society 21 78 (in Chinese) [戴 欣、黄席樾、孙 跃 2006 电工技术学报 21 78]

    [11]

    Han T, Zhuo F, Yan J K, Liu T, Wang Z A 2005 Advanced Technology of Electrical Engineering and Energy 24 45 (in Chinese) [韩 腾、卓 放、闫军凯、刘 涛、王兆安 2005 电 工电能新技术 24 45] 〖12] Hu A P 2001 Ph. D. Dissertation (Auckland: The University of Auckland)

    [12]

    Wang C S, Covic G A, Stielau O H 2004 IEEE Trans. Ind. Electron. 51 148

    [13]

    Wu Y, Yan L G, Xu S G 2004 Proceedings of the CSEE 24 63 (in Chinese) [武 瑛、严陆光、徐善刚 2004 中国电机工程学报 24 63]

    [14]

    Wang X M, Zhang B, Qiu D Y, Chen L G 2008 Acta Phys. Sin. 57 6112 (in Chinese) [王学梅、张 波、丘东元、陈良刚 2008 物理学报 57 6112]

    [15]

    Li M, Ma X K, Dai D, Zhang H 2005 Acta Phys. Sin. 54 1084 (in Chinese) [李 明、马西奎、戴 栋、张 浩 2005 物理学报 54 1084]

    [16]

    Wang A Y, Ling Z H 2010 Chin. Phys. B 19 070506

    [17]

    Luo X S, Wang B H, Chen G R, Quan H J, Fang J Q, Zhou Y L, Jiang L Q 2003 Acta Phys. Sin. 52 12 (in Chinese) [罗晓曙、汪秉宏、陈关荣、全宏俊、方锦清、邹艳丽、蒋品群 2003 物理学报 52 12]

    [18]

    Zhao Y B, Luo X S, Fang J Q, Wang B H 2005 Acta Phys. Sin. 54 5022 (in Chinese) [赵益波、罗晓曙、方锦清、汪秉宏 2005 物理学报 54 5022]

    [19]

    Chen Y S 1993 Bifurcation and Chaos Theory of Nonlinear Vibration Systems (Beijing: Higher Education Press) p109 (in Chinese) [陈予恕 1993 非线性振动系统的分叉和混沌理论 (北京: 高等教育出版社)第109页]

  • [1]

    Ping S 2008 Ph. D. Dissertation (Auckland: The Univeristy of Auckland)

    [2]

    Yang Z, Liu W T, Basham E 2007 IEEE Trans. Magn. 43 3851

    [3]

    Covic G A, Boys J T, Lu H G 2006 Proceedings of the 1st IEEE Conference on Industrial Electronics and Applications Singapore, May 24—26, 2006 p466

    [4]

    Dehennis A D, Wise K D 2005 Journal of Microelectromechanical Systems 14 12

    [5]

    Green A W, Boys J T 1994 Proceedings of the 5th International Conference on Power Electronics and Variable-Speed Drives London, UK, Oct 26—28, 1994 p694

    [6]

    Su Y G, Tang C S, Wu S P, Sun Y 2006 Proceedings of the International Conference on Power System Technology Chongqing, China Oct 22—26, 2006 p794

    [7]

    Tang C S, Sun Y, Su Y G, Nguang S K, Hu A P 2009 IEEE Trans. Power Electron. 24 416

    [8]

    Wang C S, Covic G A, Stielau O H 2004 IEEE Trans. Power Electron. 19 995

    [9]

    Sun Y, Hu A P, Dai X, Su Y G. 2004 Proceedings of the International Conference on Power System Technology Singapore, Nov 21—24, 2004 p1015

    [10]

    Dai X, Huang X Y, Sun Y 2006 Transactions of China Electrotechnical Society 21 78 (in Chinese) [戴 欣、黄席樾、孙 跃 2006 电工技术学报 21 78]

    [11]

    Han T, Zhuo F, Yan J K, Liu T, Wang Z A 2005 Advanced Technology of Electrical Engineering and Energy 24 45 (in Chinese) [韩 腾、卓 放、闫军凯、刘 涛、王兆安 2005 电 工电能新技术 24 45] 〖12] Hu A P 2001 Ph. D. Dissertation (Auckland: The University of Auckland)

    [12]

    Wang C S, Covic G A, Stielau O H 2004 IEEE Trans. Ind. Electron. 51 148

    [13]

    Wu Y, Yan L G, Xu S G 2004 Proceedings of the CSEE 24 63 (in Chinese) [武 瑛、严陆光、徐善刚 2004 中国电机工程学报 24 63]

    [14]

    Wang X M, Zhang B, Qiu D Y, Chen L G 2008 Acta Phys. Sin. 57 6112 (in Chinese) [王学梅、张 波、丘东元、陈良刚 2008 物理学报 57 6112]

    [15]

    Li M, Ma X K, Dai D, Zhang H 2005 Acta Phys. Sin. 54 1084 (in Chinese) [李 明、马西奎、戴 栋、张 浩 2005 物理学报 54 1084]

    [16]

    Wang A Y, Ling Z H 2010 Chin. Phys. B 19 070506

    [17]

    Luo X S, Wang B H, Chen G R, Quan H J, Fang J Q, Zhou Y L, Jiang L Q 2003 Acta Phys. Sin. 52 12 (in Chinese) [罗晓曙、汪秉宏、陈关荣、全宏俊、方锦清、邹艳丽、蒋品群 2003 物理学报 52 12]

    [18]

    Zhao Y B, Luo X S, Fang J Q, Wang B H 2005 Acta Phys. Sin. 54 5022 (in Chinese) [赵益波、罗晓曙、方锦清、汪秉宏 2005 物理学报 54 5022]

    [19]

    Chen Y S 1993 Bifurcation and Chaos Theory of Nonlinear Vibration Systems (Beijing: Higher Education Press) p109 (in Chinese) [陈予恕 1993 非线性振动系统的分叉和混沌理论 (北京: 高等教育出版社)第109页]

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  • Received Date:  01 September 2010
  • Accepted Date:  10 November 2010
  • Published Online:  15 April 2011

Analysis of multiple resonant operating points and their autonomous oscillation stabilities in inductive power transfer systems

  • 1. (1)College of Automation, Chongqing University, Chongqing 400044, China; (2)School of Engineering, The University of Auckland, Auckland 1010, New Zealand

Abstract: In this paper we determine multiple resonant operating points (ROPs) of inductive power transfer (IPT) systems and perform the corresponding stability analysis of a series-tuned IPT system, which is taken for example, through using nonlinear dynamics theories. The stroboscopic mapping model of the system is built and a piecewise analytical function of the steady-state response is derived with the fixed-point theory. Then a criterion for assessing the system ROPs is given mathematically. The stability analysis of ROPs is achieved according to the locations of the eigenvalues of the Jacobi matrix of the Poincare mapping model of the system. A case study of the phenomenon of multiple ROPs is conducted, and both simulation and experimental results verify the theoretical results of the proposed method. Furthermore, the proposed method can provide useful theoretical reference for modeling and steady-state analysing other similar resonant converters.

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