International Journal of Advanced Research in Computer and Communication Engineering

Abstract: The recent boom in the electric vehicle (EV) industry has escalated the demand towards effective and safe electric vehicle charging solutions that are also convenient to use. The conventional wired charging systems are based on physical connectors that are vulnerable to mechanical damages, are unsafe and may be inconvenient to the drivers. We propose a solution to these shortcomings by introducing a static wireless charging system, which incorporates the Internet-of-Things (IoT) feature to monitor and control it in real-time. In our system, the inductive power transfer is used: an AC source with high-frequency is produced by using a power-electronics converter on the mains, which is fed to a transmitter coil. The alternating magnetic field is coupled to a receiver coil on the EV to induce an AC voltage which is then rectified, filtered and regulated to offer a constant DC supply to charge the batteries. An embedded Wi-Fi/BLE chip and microcontroller allow nonstop monitoring of such vital parameters as charging voltage, current, temperature, and status to a cloud-based dashboard, which contributes to a higher level of safety, diagnostics, and user experience. A prototype was also made and tested under stationary conditions. On-hand experimental findings provide credible transfer of power over a small air gap, with the preservation of output voltage and successful battery charging. The concept of real-time monitoring of IoT was found to be effective in delivering real-time data about the performance of the charging process and allowing faults to be identified remotely. The proposed design will save wear and tear on connectors, eradicate cable risks and increase the general convenience of the system in comparison to the standard wired system.The results of this research allow recognizing the possibility of combining the technique of charging an electric vehicle in place with the IoT-based monitoring system and positioning it as an attractive element of the following smart and automated charging systems.

Keywords: IoT, Electric vehicles, Wireless charging, Static charging, Wireless Power Transmission (WPT), Magnetic field

Downloads: | DOI: 10.17148/IJARCCE.2026.15134