Wireless Power transfer is the transmission of electrical energy without wires as a physical link. In a wireless power transmission system, a transmitter device, driven by electric power from a power source, generates a time-varying electromagnetic field, which transmits power across space to a receiver device, which extracts power from the field and supplies it to an electrical load. The technology of wireless power transmission can eliminate the use of the wires and batteries. The main aim of the project is to present an overview of inductive wireless charging technology for the application of electric vehicles (EVs).  Here, wireless charging is done when the vehicle in rest as well as in the operation. In this method the storage device (battery) will charge without any cords which makes the device more compact and easy to use and provide even more comfort. WPT technology can transfer maximum power by achieving maximum efficiency.

FariborzMusavi , Wilson Eberle (2012) : “Wireless power transfer : A survey of EV battery charging technologies”: Published in Energy Conversion Congress and Exposition(ECCE), IEEE International .

TariqueSalet , ShilpakRaich (2013) : “A wireless battery charger for mobile device”: Published in International Journal of Emerging Trends & Technology in Computer Science (volume:2, issue:3, may-june) .

In-Soo Suh ,Jedok Kim (2013): “Electric vehicle on-road dynamic charging system with wireless power transfer technology” : Published in Electric Machines & Drives Conference(IEMDC), IEEE International .

Su Y.Choi , BeomW.Gu (March 2015): “Advances in wireless power transfer system for roadway-powered electric vehicles”: Published in IEEE Journals of Emerging and Selecting Topics in Power Electronics (volume:3,issue:1).

Firdaus,Toy Fabian Fadel (2015):“Design of wireless battery charger using near-field induction method” : Published in Telecommunication System Services and Application (TSSA), 9th International Conference .

Xiao Lu , Ping Wang , DusitNiyato (nov 2015): “Wireless charging technologies : fundamentals , standards and network applications” : Published in IEEE communications surveys and tutorials (volume:18,issuse:2).

MutaphaDebbou, FrangoisColet (Oct 2016) : “Inductive wireless power transfer for electric vehicle dynamic charging” : Published in IET Power Electronics (Volume:9,Issue:2) .

S. J. Gerssen-Gondelach and A. P. C. Faaij, “Performance of batteries for electric vehicles on short and longer term,” J. Power Sour., vol. 212, pp. 111–129, Aug. 2012.

V.Etacheri, R. Marom, R. Elazari, G. Salitra, and D. Aurbach, “Challenges in the development of advanced Li-ion batteries: A review,”Energy Environ. Sci., vol. 4, no. 9, pp. 3243–3262, 2011.

A. K. A. Kurs, R. Moffatt, J. D. Joannopoulos, P. Fisher, and M. Soljacic, “Wireless power transfer via strongly coupled magnetic resonances,” Science, vol. 317, no. 5834, pp. 83–86, 2007.

A.P.Sample, D. A. Meyer, and J. R. Smith, “Analysis, experimental results, and range adaptation of magnetically coupled resonators for wireless power transfer,” IEEE Trans. Ind. Electron., vol. 58, no. 2, pp. 544–554, Feb. 2011.

B.L.Cannon, J. F. Hoburg, D. D. Stancil, and S. C. Goldstein,“Magnetic resonant coupling as a potential means for wireless power transfer to multiple small receivers,” IEEE Trans. Power Electron.,vol. 24, no. 7, pp. 1819–1825, Jul. 2009.

A.Kurs, R.Moffatt, and M.Soljacic, “Simultaneous mid-range power transfer to multiple devices,” Appl. Phys. Lett., vol. 96, no. 4,pp. 044102-1–044102-3, 2010.

C.Sanghoon, K.Yong-Hae, S.-Y. Kang, L. Myung-Lae, L. Jong-Moo, and T. Zyung, “Circuit-model-based analysis of a wireless energy transfer system via coupled magnetic resonances,” IEEE Trans. Ind.Electron., vol. 58, no. 7, pp. 2906–2914, Jul. 2011.

C.Kainan and Z.Zhengming, “Analysis of the double-layer printed spiral coil for wireless power transfer,” IEEE J. Emerg. Sel. Topics Power Electron., vol. 1, no. 2, pp. 114–121, Jul. 2013.

Z.Yiming, Z.Zhengming, and C. Kainan, “Frequency decrease analysis of resonant wireless power transfer,” IEEE Trans. Power Electron., vol. 29, no. 3, pp. 1058–1063, Mar. 2014.

L.C.Kwan, W. X. Zhong, and S. Y. R. Hui, “Effects of magnetic coupling of nonadjacent resonators on wireless power domino-resonator systems,” IEEE Trans. Power Electron., vol. 27, no. 4, pp. 1905–1916,Apr. 2012.

W.X.Zhong, L. C. Kwan, and S. Y. Hui, “Wireless power dominoresonator systems with noncoaxial axes and circular structures,” IEEE Trans. Power Electron., vol. 27, no. 11, pp. 4750–4762, Nov. 2012.

Y.Nagatsuka, N. Ehara, Y. Kaneko, S. Abe, and T. Yasuda, “Compact contactless power transfer system for electric vehicles,” in Proc. IPEC, Jun. 2010, pp. 807–813.

J.G.Bolger, F. A. Kirsten, and L. S. Ng, “Inductive power coupling for an electric highway system,” in Proc. 28th IEEE Veh. Technol. Conf., Mar. 1978, pp. 137–144.

M. Eghtesadi, “Inductive power transfer to an electric vehicleanalytical model,” in Proc. IEEE 40th Veh. Technol. Conf., May 1990, pp. 100–104.

A.W.Green and J. T. Boys, “10 kHz inductively coupled power transfer-concept and control,” in Proc. 5th Int. Conf. Power Electron. Variable-Speed Drives, Oct. 1994, pp. 694–699.

K.W.Klontz, D. M. Divan, D. W. Novotny, and R. D. Lorenz, “Contactless power delivery system for mining applications,” IEEE Trans. Ind. Appl., vol. 31, no. 1, pp. 27–35, Jan./Feb. 1995.

J.M.Barnard, J. A. Ferreira, and J. D. Van Wyk, “Sliding transformers for linear contactless power delivery,” IEEE Trans. Ind. Electron., vol. 44, no. 6, pp. 774–779, Dec. 1997.

N.H.Kutkut and K. W. Klontz, “Design considerations for power converters supplying the SAE J-1773 electric vehicle inductive coupler,” in Proc. 12th Annu. APEC and Expo., vol. 2. Feb. 1997, pp. 841–847.

D.A.G.Pedder, A. D. Brown, and J. A. Skinner, “A contactless electrical energy transmission system,” IEEE Trans. Ind. Electron., vol. 46, no. 1, pp. 23–30, Feb. 1999.

H.Abe, H. Sakamoto, and K. Harada, “A noncontact charger using a resonant converter with parallel capacitor of the secondary coil,” IEEE Trans. Ind. Electron., vol. 36, no. 2, pp. 444–451, Mar./Apr. 2000.

T.Boys, G. A. Covic, and A. W. Green, “Stability and control of inductively coupled power transfer systems,” Proc. IEE Electr. Power Appl., vol. 147, no. 1, pp. 37–43, Jan. 2000.