Abstract:This paper builds a new four-coil electromagnetic resonance power transfer system, and establishes the efficiency model. By analyzing the efficiency model, the phenomenon of efficiency frequency splitting of the four-coil system is studied. The influence of the adjacent coupling coefficients to the efficiency is discussed, and the optimal coupling coefficients between the four resonant coils are found, which can avoid the blindness of coupling coefficients design, and provide a theoretical reference for the system design. According to the study results of the optimal coupling coefficients, the best distance between the four coils was designed, and a double-coil that contains the power coil and transmitter coil is proposed, which can enhance the stability and improve the efficiency and transmission distance of the system effectively. The load power and efficiency were tested and analyzed under different frequency and coupling coefficients. The consistency of the experimental results and the theoretical analysis proves the correctness of the model and study conclusion. With the above research results, the system can meet the transfer range of 40 cm. When the transfer distance is 10 cm, the efficiency is 80%.
吴朝晖, 万如, 李斌. 新型四线圈无线能量传输系统的效率建模[J]. 电气技术, 2015, 16(12): 15-21.
Wu Zhaohui, Wan Ru, Li Bin. Efficiency Model of the New Four-coil Wireless Power Transfer System. Electrical Engineering, 2015, 16(12): 15-21.
[1] 姜燕, 黄禹, 李中启, 等. 三线圈磁谐振式无线输电系统传输效率的优化[J]. 电力电子技术, 2014, 48(12): 75-77. [2] Niu Wq, Chu Jx, Gu W, et al. Exact analysis of frequency splitting phenomena of contactless power transfer systems[J]. Circuits and Systems I: Regular Papers, IEEE Transactions on, 2013, 60(6): 1670-1677. [3] Zhang Yiming, Zhao Zhengming. Frequency splitting analysis of Two-Coil resonant wireless power transfer[J]. IEEE Antennas and Wireless Propagation Letters, 2014, 13: 400-402. [4] Chen Kainan, Zhao Zhengming, Zhang Yiming, et al. Analysis of structure and parameters in wireless power transmission system with consideration of losses in source[C]//2013 TWENTY-EIGHTH ANNUAL IEEE APPLIED POWER ELECTRONICS CONFERENCE AND EXPOSITION (APEC 2013), 2013: 2575-2581. [5] Sample AP, Meyer DA, Smith JR. Analysis, experi- mental results, and range adaptation of magnetically coupled resonators for wireless power transfer[J]. IEEE Transactions on Industrial Electronics, 2011, 58(2): 544-554. [6] Ahn D, Hong S. A transmitter or a receiver consisting of two strongly coupled resonators for enhanced resonant coupling in wireless power transfer[J]. Indus- trial Electronics, IEEE Transactions on, 2014, 61(3): 1193-1203. [7] Wang Q, Li H. Research on the wireless power transmission system based on coupled magnetic reson- ances[C]. Electronics, Communications and Control (ICECC), 2011 International Conference on. IEEE, 2011: 2255-2258. [8] 王素姣. 磁耦合线圈互感系数M的测量[J]. 郑州铁路职业技术学院学报, 2002, 14(2): 43-44.