论文信息 - Wireless power transfer in the presence of metallic plates: Experimental results

Wireless power transfer in the presence of metallic plates: Experimental results

We demonstrate efficient wireless power transfer between two high Q resonators, especially in a complex electromagnetic environment. In the close proximity of metallic plates, the transfer efficiency stays roughly the same as the free space efficiency with proper designs. The experimental data fits well with a coupled theory model. Resonance frequency matching, alignment of the magnetic field, and impedance matching are shown to be the most important factors for efficient wireless power transfer.

[1] David R. Smith,et al. Magnetic superlens-enhanced inductive coupling for wireless power transfer , 2012, 1204.0231.

[2] M. Soljačić,et al. Efficient weakly-radiative wireless energy transfer: An EIT-like approach , 2009 .

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

[4] M. Soljačić,et al. Efficient wireless non-radiative mid-range energy transfer , 2006, physics/0611063.

[5] S. Fan,et al. Wireless energy transfer with the presence of metallic planes , 2011 .

[6] Bingnan Wang,et al. Wireless power transfer with metamaterials , 2011, Proceedings of the 5th European Conference on Antennas and Propagation (EUCAP).

[7] Alanson P. Sample,et al. Analysis , Experimental Results , and Range Adaptation of Magnetically Coupled Resonators for Wireless Power Transfer , 2010 .

[8] Tie Jun Cui,et al. An Optimizable Circuit Structure for High-Efficiency Wireless Power Transfer , 2013, IEEE Transactions on Industrial Electronics.

[9] David R. Smith,et al. Metamaterial-enhanced coupling between magnetic dipoles for efficient wireless power transfer , 2011, 1102.2281.

[10] Anthony Grbic,et al. A Power Link Study of Wireless Non-Radiative Power Transfer Systems Using Resonant Shielded Loops , 2012, IEEE Transactions on Circuits and Systems I: Regular Papers.

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