Mutual Inductance Calculation and Optimization of Multi-Receiver Positive and Negative Series Coil Structure in Dynamic Wireless Power Transfer Systems
Li Zhongqi1,2, Li Shangyou2, Li Jing2, Zou Yao3, Huang Shoudao1
1. College of Electrical and Information Engineering Hunan University Changsha 412008 China; 2. College of Transportation Engineering Hunan University of Technology Zhuzhou 412007 China; 3. College of Electrical and Information Engineering Hunan University of Technology Zhuzhou 412007 China
Abstract:In dynamic wireless power transfer (DWPT) system via magnetic coupling resonance, the misalignment between the transmission and the receiving coils can reach half of the side length of the transmission coil. At this moment, the variations in mutual inductance are very large. These variations in mutual inductance may harm the stability of the DWPT systems. This paper proposes a multi-receiving positive and negative series coil structure to reduce the fluctuation rate of the mutual inductance. First, a method of calculating the mutual inductance of a rectangular coil is proposed, and the mutual inductance characteristics of the proposed structure are analyzed by using the formula of the mutual inductance calculation. Secondly, an optimization method of the mutual inductance is presented. The parameters of the proposed structure that meet the design requirements are obtained by using the proposed optimization method. Finally, a wireless power transfer system based on the multi-receiving positive and negative serial coil structure is developed according to the obtained parameters. And the correctness of the proposed structure and method is verified through simulation and experiment results. These results show that the maximum fluctuation rate of the mutual inductance between the coils is 3.81% by using the proposed structure when the misalignment between the coils is changed within half of the side length of the transmission coil.
李中启, 李上游, 李晶, 邹瑶, 黄守道. 动态无线电能传输系统多接收线圈正反串联结构的互感计算与优化[J]. 电工技术学报, 2021, 36(24): 5153-5164.
Li Zhongqi, Li Shangyou, Li Jing, Zou Yao, Huang Shoudao. Mutual Inductance Calculation and Optimization of Multi-Receiver Positive and Negative Series Coil Structure in Dynamic Wireless Power Transfer Systems. Transactions of China Electrotechnical Society, 2021, 36(24): 5153-5164.
[1] 薛明, 杨庆新, 章鹏程, 等. 无线电能传输技术应用研究现状与关键问题[J]. 电工技术学报, 2021, 36(8): 1547-1568. Xue Ming, Yang Qingxin, Zhang Pengcheng, et al.Application status and key issues of wireless power transmission technology[J]. Transactions of China Electrotechnical Society, 2021, 36(8): 1547-1568. [2] 罗成鑫, 丘东元, 张波, 等. 多负载无线电能传输系统[J]. 电工技术学报, 2020, 35(12): 2499-2516. Luo Chengxin, Qiu Dongyuan, Zhang Bo, et al.Wireless power transfer system for multiple loads[J]. Transactions of China Electrotechnical Society, 2020, 35(12): 2499-2516. [3] 廖志娟, 孙跃, 叶兆虹, 等. 无线电能传输系统共振机理及共振点分布特性研究[J]. 电工技术学报, 2020, 35(2): 215-224. Liao Zhijuan, Sun Yue, Ye Zhaohong, et al.Research on resonance mechanism and resonant point distri- bution characteristic of magnetic coupling wireless power transfer systems[J]. Transactions of China Electrotechnical Society, 2020, 35(2): 215-224. [4] Fang Chen, Zhao Xiaojin, Xu Qin, et al.Aggregator- based demand response mechanism for electric vehicles participating in peak regulation in valley time of receiving-end power grid[J]. Global Energy Inter- connection, 2020, 3(5): 453-463. [5] Zhang Jing, Liu Chang, Yuan Ruiming, et al.Design scheme for fast charging station for electric vehicles with distributed photovoltaic power generation[J]. Global Energy Interconnection, 2019, 2(2): 150-159. [6] 贾金亮, 闫晓强. 磁耦合谐振式无线电能传输特性研究动态[J]. 电工技术学报, 2020, 35(20): 4217-4231. Jia Jinliang, Yan Xiaoqiang.Research tends of magnetic coupling resonant wireless power transfer characteristics[J]. Transactions of China Electrotech- nical Society, 2020, 35(20): 4217-4231. [7] 赵鱼名, 王智慧, 苏玉刚, 等. 基于T型CLC谐振网络的恒压型电场耦合电能传输系统负载自适应技术[J]. 电工技术学报, 2020, 35(1): 106-114. Zhao Yuming, Wang Zhihui, Su Yugang, et al.Load adaptive technology of constant voltage electric-field coupled power transfer system based on T-CLC resonant network[J]. Transactions of China Electro- technical Society, 2020, 35(1): 106-114. [8] 赵锦波, 蔡涛, 段善旭, 等. 适用于分段式动态无线充电的T型抗偏移补偿拓扑[J]. 电工技术学报, 2017, 32(18): 1-7. Zhao Jinbo, Cai Tao, Duan Shan, et al.A T-type high misalignment tolerant compensated topology for sectional track-based dynamic wireless power trans- mission system[J]. Transactions of China Electro- technical Society, 2017, 32(18): 1-7. [9] 陈庆彬, 张伟豪, 叶逢春, 等. 结合变压器T网络模型的具有可变恒压增益特性的补偿网络参数确定新方法[J]. 中国电机工程学报, 2017, 37(15): 4483-4494, 4590. Chen Qingbin, Zhang Weihao, Ye Fengchun, et al.A new compensation network parameters design method with variable constant voltage gain characteristics based on transformer T model[J]. Proceedings of the CSEE, 2017, 37(15): 4483-4494, 4590. [10] 李阳, 张雅希, 闫卓, 等. 磁耦合谐振式无线电能传输系统阻抗分析与匹配电路设计方法[J]. 电工技术学报, 2016, 31(22): 12-18. Li Yang, Zhang Yaxi, Yan Zhuo, et al.Impedance analysis and design of matching circuit in wireless power transfer system via coupled magnetic reso- nances[J]. Transactions of China Electrotechnical Society, 2016, 31(22): 12-18. [11] 高键鑫, 吴旭升, 高嵬, 等. 基于LCC的磁谐振无线电能传输发射端补偿技术[J]. 电工技术学报, 2016, 31(增刊1): 9-15. Gao Jianxin, Wu Xusheng, Gao Wei, et al.Com- pensation technology of magnetic resonant wireless power transfer transmitter based on LCC[J]. Transa- ctions of China Electrotechnical Society, 2016, 31(S1): 9-15. [12] Lu Fei, Zhang Hua, Hofmann H, et al.A dual-coupled LCC-compensated IPT system to improve misalign- ment performance[C]//2017 IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW), Chongqing, China, 2017, 1-8. [13] 孙跃, 张欢, 唐春森, 等. LCL型非接触电能传输系统电路特性分析及参数配置方法[J]. 电力系统自动化, 2016, 40(8): 103-107. Sun Yue, Zhang Huan, Tang Chunsen, et al.Circuit characteristic analysis and parameter configuration method of LCL type contactless power transfer system[J]. Automation of Electric Power Systems, 2016, 40(8): 103-107. [14] Zhao L, Thrimawithana D J, Madawala U K, et al.Hybrid bidirectional wireless EV charging system tolerant to pad misalignment[J]. IEEE Transactions on Industrial Electronics, 2017, 64(9): 7079-7086. [15] Xiao Chunyan, Cheng Dingning, Wei Kangzheng.An LCC-C compensated wireless charging system for implantable cardiac pacemakers: theory, experiment, and safety evaluation[J]. IEEE Transactions on Power Electronics, 2018, 33(6): 4894-4905. [16] Sample A P, Waters B H, Wisdom S T, et al.Enabling seamless wireless power delivery in dynamic environments[J]. Proceedings of the IEEE, 2013, 101(6): 1343-1358. [17] Tan Linlin, Yan Changxin, Huang Xueliang, et al.Online frequency and power regulation scheme of magnetic coupled resonant wireless power transfer[J]. Journal of Southeast University (English Edition), 2016, 32(2): 187-194. [18] Gati E, Kampitsis G, Manias S.Variable frequency controller for inductive power transfer in dynamic conditions[J]. IEEE Transactions on Power Electro- nics, 2017, 32(2): 1684-1696. [19] Fu Minfan, Yin He, Zhu Xinen, et al.Analysis and tracking of optimal load in wireless power transfer systems[J]. IEEE Transactions on Power Electronics, 2015, 30(7): 3952-3963. [20] Choi S Y, Gu B W, Jeong S Y.et al.Advances in wireless power transfer systems for roadway-powered electric vehicles[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2015, 3(1): 18-36. [21] Covic G A. Boys J T.Modern trends in inductive power transfer for transportation applications[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2013, 1(1): 28-41. [22] Budhia M, Boys J T, Covic G A, et al.Development of a single-sided flux magnetic coupler for electric vehicle IPT charging systems[J]. IEEE Transactions on Industrial Electronics, 2013, 60(1): 318-328. [23] 胡超. 电动汽车无线供电电磁耦合机构能效特性及优化方法研究[D]. 重庆: 重庆大学, 2015. [24] Li Zhongqi, Cheng Wangyang, Yi Jiliang, et al.Design and optimization of quasi-constant mutual inductance for asymmetric two-coil wireless power transfer system with lateral misalignments[J]. Pro- gress in Electromagnetics Research M, 2018, 69: 207-217. [25] Ahn H R, Kim M S, Kim Y J.Inductor array for minimising transfer efficiency decrease of wireless power transmission components at misalignment[J]. Electronics Letters, 2014, 50(5): 393-394. [26] Chow J P W, Chen N, Chung H S H, et al. An investigation into the use of orthogonal winding in loosely coupled link for improving power transfer efficiency under coil misalignment[J]. IEEE Transactions on Power Electronics, 2015, 30(10): 5632-5649. [27] Choi S Y, Jeong S Y, Lee E S, et al.Generalized models on self-decoupled dual pick-up coils for large lateral tolerance[J]. IEEE Transactions on Power Electronics, 2015, 30(11): 6434-6445. [28] 宋凯, 朱春波, 李阳, 等. 用于电动汽车动态供电的多初级绕组并联无线电能传输技术[J]. 中国电机工程学报, 2015, 35(17): 4445-4453. Song Kai, Zhu Chunbo, Li Yang, et al.Wireless power transfer technology for electric vehicle dynamic charging using multi-parallel primary coils[J]. Pro- ceedings of the CSEE, 2015, 35(17): 4445-4453. [29] Zhang Zhen, Chau K T.Homogeneous wireless power transfer for move-and-charge[J]. IEEE Transactions on Power Electronics, 2015, 30(11): 6213-6220. [30] Lu Fei, Zhang Hua, Hofmann H, et al.A dynamic charging system with reduced output power pulsation for electric vehicles[J]. IEEE Transactions on Indu- strial Electronics, 2016, 63(10): 6580-6590. [31] Chen Yang, Mai Ruikun, Zhang Youyuan, et al.Improving misalignment tolerance for IPT system using a third-coil[J]. IEEE Transactions on Power Electronics, 2019, 34(4): 3009-3013. [32] Carretero C, Acero J, Alonso R J, et al.Modeling mutual impedances of loaded non-coaxial inductors for induction heating applications[J]. IEEE Transa- ctions on Magnetics, 2008, 44(11): 4115-4118 [33] Luo Zhichao, Wei Xuezhe.Analysis of square and circular planar spiral coils in wireless power transfer system for electric vehicles[J]. IEEE Transactions on Industrial Electronics, 2018, 65(1): 331-341. [34] 吴德会, 何天府, 王晓红, 等. 感应电能传输中矩形螺线线圈互感耦合的解析建模与分析[J]. 电工技术学报, 2018, 33(3): 680-688. Wu Dehui, He Tianfu, Wang Xiaohong, et al.Analytical modeling and analysis of mutual Indu- ctance coupling of rectangular spiral coils in inductive power transfer[J]. Transactions of China Electro- technical Society, 2018, 33(3): 680-688. [35] 李中启, 黄守道, 易吉良, 等. 磁耦合谐振式无线电能传输系统频率分裂抑制方法[J]. 电力系统自动化, 2017, 41(2): 21-27. Li Zhongqi, Huang Shoudao, Yi Jiliang, et al.Frequency splitting suppression method of wireless power transfer via magnetic resonance coupling[J]. Automation of Electric Power Systems, 2017, 41(2): 21-27.
2021, Vol. 36 
