Soljačić M, Kurs A, Karalis A, et al. Wireless power transfer via strongly coupled magnetic resonances[J]. Science Express, 2007, 112(6): 1-10.
[2]
Soljačić M. Wireless energy transfer can potentially recharge laptops, cell phones without cords[R]. San Francisco: Massachusetts Institute of Technology, 2006.
[3]
Chunlai Yu, Rengui Lu, Shumei Cui, et al. Research on resonance based wireless energytransfer device for small mobile equipments[C]. Proceedings of the 2011 International Conference on Electrical Machines and Systems(ICEMS), 2011: 1-3.
[4]
David L Mascarenas, Eric B Flynn, Michael D Todd, et al. Experimental studies of using wireless energy transmission for powering embedded sensor nodes[J]. Journal of Sound and Vibration, 2010, 329: 2421-2433.
[5]
Juan Luis Villa, Jesús Sallán, Andrés Llombart. Design of a high frequency inductively coupled power transfer system for electric vehicle battery charge[J]. Applied Energy, 2009, 86: 355-363.
[6]
Luiz H A, Correia Daniel F, Macedo Aldri L, et al. Transmission power control techniques for wireless sensor networks[J]. Computer Networks, 2007, 51: 4765-4779.
[7]
Junji Hirai, Tae-Woong Kim, Atsuo Kawamura. Integral motor with driver and wireless transmission of power and information for autonomous subspindle drive[J]. IEEE Transactions on Power Electronics, 2000, 15(1): 13-20.
[8]
Kurs A, Joannopoulos J D, Soljačić M. Efficient wireless nonradiative mid-range energy transfer[J]. Annals of Physics, 2008, 323: 34-48.
[9]
Tan Linlin, Huang Xueliang, Huang Hui, et al. Transfer efficiency optimal control of magnetic resonance coupled system of wireless power transfer based on frequency control[J]. Science in China Series E: Engineering&Materials Science, 2011, 54(6): 1428-1434.
[10]
Qiang Hao, Huang XueLiang, Tan LinLin, et al. Achieving maximum power transfer of inductively coupled wireless power transfer system based on dynamic tuning control[J]. Science in China Series E: Engineering&Materials Science, 2012, 55(7): 1886- 1893.
[11]
Seung Hwan L, Robert D Lorenz. Development and Validation of model for 95%-efficiency 220W wireless power transfer over a 30cm air gap[J]. IEEE Transactions on Industry Applications, 2011, 47(6): 2495-2504.
[12]
Mehdi Kiani, Uei Ming Jow, Maysam Ghovanloo. Design and optimization of a 3-coil inductive link for efficient wireless power transmission[J]. IEEE Transactions on Biomedical Circuits and Systems, 2011, 5(6): 579-591.
[13]
Haus H A. Waves and fields in optoelectronics[M]. New Jersey: Prentice-Hall, USA, 1984.
