Abstract: In the age of wireless technology and increasing use of renewable energy there's a continuing increase within the demand for wireless technology that is environment friendly. the primary step in wireless power is providing power to any device wirelessly. If the efficiency of transmitting the power wirelessly is magnified slightly more, then wireless power transmission may become a regular means for charging any electronic appliance, and conjointly if it's by the means of a renewable and a clean power supply comparable to solar power it'd be a cherry of the cake. This paper presents the design of a wireless power transfer system with road embedded transmitter coils to facilitate dynamic charging of EVs. A transmitter coil, that is comparatively long compared with the circular receiver coil, has been designed to cut back the price of the transmitter circuit. A model transmitter coil has been embedded into a road for analysis of its characteristics. we had designed a high-efficiency charging system that uses magnetic fields to wirelessly transmit massive electrical currents between metal. The long-run goal of the analysis is to develop an all-electric road that wirelessly charges cars and trucks as they cruise down the road. The new technology has the potential to dramatically increase the practice range of electrical vehicles and eventually remodel road travel, per the researchers. Our vision is that you're going to be able to drive onto any road and charge your automobile. Large-scale preparation would involve revamping the complete transit and will even have applications beyond transportation.
Keywords: Wireless electricity, Roads, Solar energy , Battery, Electric vehicles.