Abstract: Bicycles are the predominant mode of transportation for people in the 20th century. Since the invention of gasoline and diesel engines a few decades ago, fewer people are experiencing physical stress from their vehicles. Nevertheless, the world's petroleum reserves are about to run out in a few decades. As a result, the cost of gasoline and diesel is rising, which is the problem we are currently dealing with. People must explore more choices, such as hydrogen. Engine: An electronic car with solar panels is one of the finest possibilities; it will undoubtedly be expensive, but it mostly uses free natural resources. The newest technology, wireless charging, allows you to charge your car while you drive, saving you a ton of time. It is employed in a wide range of applications, including e-bikes, four-wheelers, two-wheelers, ambulances, and more. Among the many alternatives available, a wireless electronic vehicle charging system is one of the most expensive. We are implementing an Arduino-based e-vehicle charging system as a project in this work. While driving, this gadget can be used to remotely charge electronic vehicles. The automobile battery is charged by coils and a solar panel that is fixed into the road whenever the vehicle passes a national highway or road. This technique has a wide range of uses outside of the luxury market. However, the same idea is also applied in applications where saving time and non-renewable energy is crucial. This allows an electric car to be charged wirelessly while in motion or while parked.
Additionally, utilizing the provided microcontroller, displays, and coils reduces charging time significantly. Roads and highways are suitable for using this device. The ATmega controller microcontroller is at the center of this system. This charging mechanism finds extensive use in the luxury car industry, where robustness and longevity are crucial attributes. Circuitry for a regulator that regulates voltage as needed. Additionally, the vehicle will not wait to charge and will always be in a state of continuous charging to reach its maximum capacity.
Keywords: ATmega328, Arduino, wireless charging, controller
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DOI:
10.17148/IJARCCE.2024.13531
