Abstract: Electric vehicles (EVs) are gaining traction globally as a sustainable solution to transportation needs, promising reduced reliance on fossil fuels and lower emissions. However, the challenge of convenient and eco-friendly charging infrastructure persists. This project addresses this challenge by introducing a dynamic electric vehicle charging system powered by solar energy.
The system leverages a 12V solar panel to harness renewable energy, converting it into electrical power for charging EV batteries. What sets this system apart is its wireless transmission technology, enabling continuous charging while the vehicle is in motion. This eliminates the need for external power sources or stopping for charging, enhancing the convenience and efficiency of EV usage.
Central to the system's operation is the Arduino UNO microcontroller unit, which manages the charging process and ensures optimal energy transfer. Real-time data on charging status and performance are displayed on a 16 X 2 LCD display, providing users with valuable insights.
Key components such as the DC converter, transmission circuit, and copper coils are integrated seamlessly to facilitate efficient charging. This integration not only ensures a smooth charging experience but also underscores the system's sustainability and environmental friendliness.
In summary, this project presents a holistic solution to the challenges of EV charging infrastructure. By harnessing solar energy and employing wireless transmission technology, it offers a sustainable, efficient, and convenient charging option for electric vehicle users, ultimately contributing to a greener and more sustainable future.
Keywords: Solar Energy, Wireless Charging, Electric Vehicle, Arduino UNO, DC Converter, Transmission Circuit, Sustainable Charging, Dynamic Charging System
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DOI:
10.17148/IJARCCE.2024.13433
