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Optimization Of Solar -Powered Static wireless Charging Station for Electric Vehicles
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The project specifically focuses on the design of a solar-powered electric vehicle charging system, offering a solution to the key issues of fuel dependency and environmental pollution. Electric vehicles have gained global traction and are progressively becoming more prevalent. Beyond their environmental advantages, electric vehicles contribute to cost reduction by substituting electricity for fuel, which is a more economical alternative. This project presents an innovative solution for EV charging, eliminating the need for wires, harnessing solar power to sustain the charging system, and operating without external power supply requirements. The system incorporates components such as a solar panel, battery, transformer, regulator circuitry, copper coils, AC to DC converter, Atmega controller, and LCD display. Through this integration, the system showcases the wireless charging capability for electric vehicles at charging stations. The LCD display provides real-time information on the total cost. In summary, the project demonstrates the viability of a solar-powered wireless charging system for electric vehicles, presenting a forward-looking approach to integration.
Key Words: Electric Vehicle, Wireless power transmission, static wireless charging, Atmega328p controller with LCD, Mutual induction.
Edtech Publishers (OPC) Private Limited
Title: Optimization Of Solar -Powered Static wireless Charging Station for Electric Vehicles
Description:
The project specifically focuses on the design of a solar-powered electric vehicle charging system, offering a solution to the key issues of fuel dependency and environmental pollution.
Electric vehicles have gained global traction and are progressively becoming more prevalent.
Beyond their environmental advantages, electric vehicles contribute to cost reduction by substituting electricity for fuel, which is a more economical alternative.
This project presents an innovative solution for EV charging, eliminating the need for wires, harnessing solar power to sustain the charging system, and operating without external power supply requirements.
The system incorporates components such as a solar panel, battery, transformer, regulator circuitry, copper coils, AC to DC converter, Atmega controller, and LCD display.
Through this integration, the system showcases the wireless charging capability for electric vehicles at charging stations.
The LCD display provides real-time information on the total cost.
In summary, the project demonstrates the viability of a solar-powered wireless charging system for electric vehicles, presenting a forward-looking approach to integration.
Key Words: Electric Vehicle, Wireless power transmission, static wireless charging, Atmega328p controller with LCD, Mutual induction.
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