论文信息 - Performance Analysis and Experimental Verification of Mid-Range Wireless Energy Transfer through Non-resonant Magnetic Coupling

Performance Analysis and Experimental Verification of Mid-Range Wireless Energy Transfer through Non-resonant Magnetic Coupling

In this paper, the efficiency analysis of a mid-range wireless energy transfer system is performed through non-resonant magnetic coupling. It is shown that the self-resistance of the coils and the mutual inductance are critical in achieving a high efficiency, which is indicated by our theoretical formulation and verified in our experiments. It is experimentally shown that high efficiency, up to 65%, can be realized even in a non-resonant wireless energy system which employs a device part with moderate or low quality factor. We also address some aspects of a practical wireless energy transfer system and show that careful design of the de-tuned system can intrinsically minimize the power dissipated in the source part. Our non-resonant scheme presented in this paper allows flexible design and fabrication of a wireless energy transfer systems with transfer distance being several times of the coils' radius.

[1] C. Seo,et al. HIGH-EFFICIENCY WIRELESS ENERGY TRANSMIS- SION USING MAGNETIC RESONANCE BASED ON METAMATERIAL WITH RELATIVE PERMEABILITY EQUAL TO ¡1 , 2010 .

[2] S.C. Goldstein,et al. Magnetic Resonant Coupling As a Potential Means for Wireless Power Transfer to Multiple Small Receivers , 2009, IEEE Transactions on Power Electronics.

[3] M. Soljačić,et al. Wireless Power Transfer via Strongly Coupled Magnetic Resonances , 2007, Science.

[4] Chulhun Seo,et al. High-Efficiency Wireless Energy Transmission Using Magnetic Resonance Based on Negative Refractive Index Metamaterial , 2010 .

[5] Antonio Baldi,et al. Wireless powering of single-chip systems with integrated coil and external wire-loop resonator , 2008 .

[6] Chengliang Sun,et al. Magnetoelectric coupling in CoFe₂O₄/SrRuO₃/Pb(Zr[sub 0.52]Ti[sub 0.48])O₃ heteroepitaxial thin film structure , 2008 .

[7] ヒュプナー・ブルクハルト. Apparatus for transmitting electrical energy , 2009 .

[8] Hans-Christoph Skudelny,et al. A new approach to power supplies for robots , 1991 .

[9] N. Asger Mortensen,et al. Wireless Energy Transfer Through Non-Resonant Magnetic Coupling , 2010 .

[10] Y. L. Guan,et al. Simulation and Experimental Comparison of Different Coupling Mechanisms for the Wireless Electricity Transfer , 2009 .

[11] Junji Hirai,et al. Wireless transmission of power and information and information for cableless linear motor drive , 2000 .