Current Volume 8
As electric vehicles (EVs) are increasingly being adopted, there is an increasing demand for efficient, safe, and convenient charging systems. This project introduces a solar- powered wireless EV charging system with IoT-based monitoring to improve reliability, safety, and convenience. The system uses solar power from a photovoltaic panel and wirelessly transmits power through inductive coupling between transmitter and receiver coils. The energy that is transmitted is controlled and utilized to charge a 12V battery on the electric vehicle. For safe operation, the system features voltage and current sensors, temperature monitoring, and relay protection. An Arduino Uno microcontroller controls the logic, such as mode selection (slow or fast charging) and fault detection. Real-time information like voltage, current, and temperature is shown on a 16x2 LCD and sent remotely using an ESP8266 Wi-Fi module, allowing smart monitoring using IoT. This method eliminates physical connectors, lowering wear, the risk of fire, and maintenance while encouraging green energy consumption. It provides a scalable, green alternative to traditional plug-in chargers, particularly in off-grid or outdoor settings. The synergy of solar power, wireless charging, and IoT makes this system a leap ahead in contemporary EV infrastructure technology.
Solar Energy Harvesting Wireless Power Transfer, Electric Vehicle (EV) Charging, Battery Management System (BMS), Real-Time Charge Monitoring.
IRE Journals:
Pulugam Rahul Charith , Gouni Rajeev , Gaddam Shashi Kumar , S. Chandra Shekhar , Dr. V. Kumaraswamy
"Solar Powered Wireless Charging with EV BMS and Charge Monitoring" Iconic Research And Engineering Journals Volume 8 Issue 11 2025 Page 574-578
IEEE:
Pulugam Rahul Charith , Gouni Rajeev , Gaddam Shashi Kumar , S. Chandra Shekhar , Dr. V. Kumaraswamy
"Solar Powered Wireless Charging with EV BMS and Charge Monitoring" Iconic Research And Engineering Journals, 8(11)