Enhancing Electric Vehicle Charging with RFID-Based Wireless Power Transfer System

This paper focuses on Radio-frequency identification (RFID)-based wireless charging centres that have become quite popular across the globe due to the vanished charging time, high charging efficiency and enhanced safety. Utilizing the integrated result of a literature review, a variability of methodologies was mulled over such as, wireless charging of RFID, solar based EV charging and Internet of Things (IoT) based monitoring of EV charging stations. This study reveals how these technologies have demonstrated their capacity to translate challenges to opportunities, thereby upgrading to a smart charged ecosystem. A backed-up reliability and sensitivity study gives a detailed review of critical system elements, highlighting the resilience of the proposed RFID-enabled wireless charging system. The Power Transfer Initiation section is thoroughly examined in the process that discloses the existence of a positive and non-linear relationship between one parameter and the overall system performance, which indicates how the system could fall into the saturation point through imprecise innumerable increase, as well as emphasizes the importance of the incremental changes of this parameter. The systematic process is the core of the proposed method, where the following things are defined: RFID tag initialization, product tagging, quality control process, cloud server integration, etc. This is just an overview explanation of the functions of the system. It offers the possibility of automated charging with RFID, increased efficiency and power supply and remote and real-time monitoring, which are the basic principles of any charging station.