Design and Implementation of a Solar-Based Wireless Charging Solution

Authors- Vishal Arjun Jadhav, Sachin Dattatray Salunkhe, Somnath Rama Sarvade, Sameer Sanjay Avhad

Abstract-– Access to electricity remains a critical global challenge, as electric power is essential for a wide range of applications—including mobile devices, laptops, cameras, sensors, satellites, offshore platforms, and biomedical implants. Wireless Power Transfer (WPT), also known as electromagnetic power transmission, offers a promising solution by enabling the delivery of electrical energy without physical connectors. This technology eliminates the dependency on copper and aluminium wires, potentially revolutionizing power distribution by enabling electricity to be transmitted wirelessly from generation sources to remote locations. Wireless Charging Systems (WCS) have emerged as a key application of WPT, particularly in electric vehicles (EVs) and other high-power domains. Compared to conventional plug-in systems, wireless charging offers superior convenience, reliability, and user-friendliness. This paper presents a comprehensive review and critical analysis of the principles, techniques, materials, and technologies underpinning wireless EV charging systems. Through an extensive evaluation of current research and technological trends, this study highlights the advancements, challenges, and future potential of wireless energy transfer in the context of sustainable mobility.

DOI: /10.61463/ijset.vol.13.issue2.350