Electrical Vehicle Charging By Electromagnetic Induction Via Loosely Coupled Coil

Authors

  • Shubham Shende  Department of Electrical Engineering, SKN Sinhgad Institute of Technology & Science, Lonavala, Maharashtra, India
  • Namdev Mane  Department of Electrical Engineering, SKN Sinhgad Institute of Technology & Science, Lonavala, Maharashtra, India
  • Shubham Kulkarni  Department of Electrical Engineering, SKN Sinhgad Institute of Technology & Science, Lonavala, Maharashtra, India
  • Govind Savat  Department of Electrical Engineering, SKN Sinhgad Institute of Technology & Science, Lonavala, Maharashtra, India
  • Sachin Kahandal  Department of Electrical Engineering, SKN Sinhgad Institute of Technology & Science, Lonavala, Maharashtra, India

Keywords:

WPT-Wireless Power Transmission, Inductive Coil, Transmitter Circuit, Receiver Circuit, Electric Vehicle, Electromagnetic Induction.

Abstract

In this project, a method of electric vehicles charging with the use of large bus vehicles moving along national highways and provincial road proposal and described. This method relies on charging vehicles from bus while moving either with plug-in electric connection or by electromagnetic induction via loosely coupled coils. Open research challenges and several avenues or opportunities for future research on electric vehicle charging are outlined. Wireless charging of gadgets is one of the new arriving technologies in the world at the moment. The most widely used method at the moment is wireless power transfer by inductive coupling. Wireless power transfer is one of the simplest and economical ways of charging as it drop the use of conventional copper cables and current carrying cable. The system consists of transmitters and receivers that contain magnetic loop sky wire critically tuned to the same frequency due to operating in the electromagnetic near field, the receiving devices must no more than about a one-fourth wavelength from the transmitter.

References

  1. D. Chattopadhyay, Electronics (fundamentals And Applications) 7th Ed. New Dehli, India:New Age Pub., 2006.
  2. Suja, S., Sathish Kumar, T., Dept. of EEE, Coimbatore Inst. of Technol., Coimbatore, India “Solar based wireless power transfer system” Published in Computation of Power, Energy, Information and Communication (ICCPEIC), 2013 International Conference on 17 April 2013.
  3. Wenzhen Fu, Bo Zhang, Dongyuan Qiu, "Study on Frequency-tracking Wireless Power Transfer System by Resonant Coupling," Power Electronics and Motion Control Conference, pp. 2658-2663, May 2009.
  4. Mandip Jung Sibakoti and Joey Hambleton (2011, December) Wireless Power Transmission Using Magnetic Resonance [OnlineAvailable: http://www.cornellcollege.edu/physics and engineering/pdfs/phy-312/mandip-sibakoti.pdf
  5. Vladislav Khayrudinov “Wireless Power Transfer system Development and Implementation,” Thesis, Dept Electron Eng., Helsinki Metropolia University of Applied Sciences, Helsinki, Finland, 2015.
  6. Wireless patient monitoring system http://www.WiTricitypower.com
  7. Rajakaruna, Somewhat; Shahnia, Farhad; Ghosh, Arundel (2014). Plug In Electric Vehicles in Smart Grids: Integration Techniques. Springer. pp. 34–36. ISBN 981287299X.

International Journal of Scientific Research in Science, Engineering and Technology

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Published

2019-04-06

Issue

Volume 5, Issue 7, March-April-2019

Section

Research Articles

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This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Shubham Shende, Namdev Mane, Shubham Kulkarni, Govind Savat, Sachin Kahandal "Electrical Vehicle Charging By Electromagnetic Induction Via Loosely Coupled Coil" International Journal of Scientific Research in Science, Engineering and Technology (IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 5, Issue 7, pp.326-328, March-April-2019.