Wireless Power Transfer on Power Train to Charge Battery |
Author(s): |
Rohit Gaikwad , MET INSTITUTE OF ENGINEERING,ADGOAN,NASHIK,MAHARASHTRA; Sunil Wagh, MET INSTITUTE OF ENGINEERING,NASHIK; Abhilash Netke, MET INSTITUTE OF ENGINEERING,NASHIK; Amol Pagare, MET INSTITUTE OF ENGINEERING,NASHIK; Deepak Bhamare, MET INSTITUTE OF ENGINEERING,NASHIK |
Keywords: |
Wireless Power Transfer, High Frequency, Metal Oxide Semiconductor Field Effect Transistor, Pulse Width Modulation |
Abstract |
The project is designed to transfer power wirelessly to one or more DC motors for an electric car or train without requiring any fuel /battery or electrical connection to run it in a specified path by inductive resonance coupling at the ground level fixed coil developing a 40 KHz power from the mains AC source. Wireless power transfer makes a remarkable change in the field of electrical engineering and eliminates the usage of conventional copper overhead wire for train. Based on this concept, the project is developed to transfer power to a robotic vehicle or electric car or electric train wirelessly. This project can also be used for high-power charging batteries in conventional electric cars wirelessly while on the run. Since charging of the battery is not possible to be demonstrated, the project has a robotic vehicle that runs totally through wireless power. |
Other Details |
Paper ID: IJSRDV7I31033 Published in: Volume : 7, Issue : 3 Publication Date: 01/06/2019 Page(s): 1519-1520 |
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