Design and Implementation of Wireless Power Transfer Charging System on Miniature Model

International Journal of Electrical and Electronics Engineering
© 2016 by SSRG - IJEEE Journal
Volume 3 Issue 4
Year of Publication : 2016
Authors : Gousia Sultana, Deepak.T.R, Pratiksha Bhushan, Mohammed Azeem, Swathi.G.N
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How to Cite?

Gousia Sultana, Deepak.T.R, Pratiksha Bhushan, Mohammed Azeem, Swathi.G.N, "Design and Implementation of Wireless Power Transfer Charging System on Miniature Model," SSRG International Journal of Electrical and Electronics Engineering, vol. 3,  no. 4, pp. 27-31, 2016. Crossref, https://doi.org/10.14445/23488379/IJEEE-V3I4P108

Abstract:

In the recent developments of simulation speed and power electronics, the field of wireless power transfer has been developed significantly. In the future transport area, electric vehicles are considered as replacement of oil powered internal combustion engine driven vehicles. Electric Vehicles (EV) have been proposed to achieve environmental friendly transportation. Even though the EV usage is currently increasing, a technology breakthrough would be required to overcome battery related drawbacks. To address battery related limitations, the concept of Wireless Power Transfer (WPT) enabled EVs have been proposed in which EV is being charged while it is in motion or stationary. In this project, the technologies for electric vehicle wireless charging are reviewed using the method of inductive coupling. WPT is the transfer of electrical power from the power source to a load without the use of physical connectors. WPT circuitry is placed inside the vehicle which gets activated when the vehicle reaches the charging area. The primary coil is supplied from the charging station. Flux is radiated out of the primary coil and gets induced with secondary coil present in the EV. The induced voltage from secondary coil is then regulated, rectified and used to charge the EV battery. In this project a miniature model of Electric Vehicle is charged in an effective way without using cables and other plug-in technology. Efficient wireless power transmission is done and control over electromagnetic induction and effective charging of battery will be achieved.

Keywords:

Electric Vehicle (EV), Inductive Coupling, Wireless Power Transmission (WPT), Flux

References:

[1] Nicola Tesla, “The transmission of electrical energy without wires”, Electrical World and Engineer, March 1905. http://www.tfcbooks.com/tesla/1904-03-05.htm, (acc. Dec. 08).
[2] William C. Brown, "The history of wireless power transmission," Solar Energy, vol.56, no.1, pp. 3-21, January 1996.
[3] Chen, Linhui, Shuo Liu, Yong Chun Zhou, and Tie Jun Cui, "An optimizable circuit structure for high-efficiency wireless power transfer," IEEE Transactions on Industrial Electronics, vol. 60, no. 1, pp.339-349, January 2013.
[4] John M. Miller, "Primary-Side Power Flow Control of Wireless Power Transfer for Electric Vehicle Charging",IEEE Journal of Emerging and Selected Topics in Power Electronics, Vol. 3, No. 1, March 2015.
[5] Afida Ayob, "Review on Electric Vehicle, Battery Charger, Charging Station and Standards", Research Journal of Applied Sciences, Engineering and Technology 7(2): 364- 373, 2014
[6] Chengbin Ma, "Wireless Charging Of Electric Vehicles: A Review and Experiments", Proceedings of IDETC/CIE 2011 ASME 2011 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference August 28-31, 2011, Washington, DC, USA.
[7] 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.
[8] 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.
[9] M. Budhia, J. T. Boys, G. A. Covic, and H. Chang-Yu, “Development of A single-sided flux magnetic coupler for electric vehicle IPT charging Systems,” IEEE Trans. Ind. Electron., vol. 60, no. 1, pp. 318–328, Jan. 2013.
[10] G. A. Covic, M. L. G. Kissin, D. Kacprzak, N. Clausen, and H. Hao, “A bipolar primary pad topology for EV stationary charging and highway Power by inductive coupling,” in Proc. IEEE ECCE, Sep. 2011, pp. 1832–1838.
[11] A. Zaheer, D. Kacprzak, and G. A. Covic, “A bipolar receiver pad in a Lumped IPT system for electric vehicle charging applications,” in Proc. IEEE ECCE, Sep. 2012, pp. 283–290.
[12] N. Shinohara, “Wireless power transmission progress for electric vehicle In Japan,” in Proc. IEEE RWS, Jan. 2013, pp. 109–111.
[13] T. E. Stamati and P. Bauer, “On-road charging of electric vehicles,” in Proc. IEEE ITEC, Jun. 2013, pp. 1–8.
[14] N. Puqi, J. M. Miller, O. C. Onar, and C. P. White, “A compact wireless Charging system development,” in Proc. IEEE ECCE, Sep. 2013, pp. 3629–3634.
[15] F. Musavi, M. Edington, and W. Eberle, “Wireless power transfer: A Survey of EV battery charging technologies,” in Proc. IEEE ECCE, Sep. 2012, pp. 1804–1810.
[16] G. A. Covic and J. T. Boys, “Modern trends in inductive power transfer for transportation applications,” IEEE J. Emerg. Sel. Topics Power Electron. vol. 1, no. 1, pp. 28–41, Jul. 2013.
[17] S. Lukic and Z. Pantic, “Cutting the cord: Static and dynamic inductive Wireless charging of electric vehicles,” IEEE Electrific. Mag., vol. 1, No. 1, pp. 57–64, Sep. 2013.
[18] M. Kiani and M. Ghovanloo, “A figure-of-merit for designing highperformance Inductive power transmission links,” IEEE Trans. Ind. Electron. vol. 60, no. 11, pp. 5292–5305, Nov. 2013.
[19] H. Jin, L. Sungwoo, P. Changbyung, C. Gyu-Hyeoung, and R. Chun-Taek, “High performance inductive power transfer system with Narrow rail width for on-line electric vehicles,” in Proc. IEEE ECCE, Sep. 2010, pp. 647–651.
[20] J. Huh, S. W. Lee, W. Y. Lee, G. H. Cho, and C. T. Rim, “Narrow-width Inductive power transfer system for online electrical vehicles,” IEEE Trans. Power Electron. vol. 26, no. 12, pp. 3666–3679, Dec. 2011.
[21] J. Y. Jae and K. Y. Dae, “System architecture and mathematical Model of public transportation system utilizing wireless charging Electric vehicles,” in Proc. 15th Int. IEEE Conf. ITSC, Sep. 2012, pp. 1055–1060.
[22] J. Y. Jae, K. Y. Dae, and J. Seungmin, “Optimal design of the wireless Charging electric vehicle,” in Proc. IEEE IEVC, Mar. 2012, pp. 1–5.
[23] Shailesh R.Kulkarni, S.N.Chaphekar, ―Energy Monitoring Using Wireless Technique SSRG International journal of electrical and Electronics engineering(SSRG-IJEEE), vol. 1,issue 8, oct.2014, ISSN:2348-8379, pp. 12-16
[24] S. In-Soo and K. Jedok, “Electric vehicle on-road dynamic charging System with wireless power transfer technology,” in Proc. IEEE IEMDC, May 2013, pp. 234–240.