Comparative Analysis of Inductive and Conductive Charging Technologies for EVs
G. Prasanth1, M. Hemanth Kumar2, Y L Prasana3, P. Rahul4, B. Vasanth Kumar5
1Assistant Professor, Department of Electrical and Electronics Engineering, Avanthi Institute of Engineering and Technology, Cherukupally, Vizianagaram - 531162., Andhra Pradesh, India
2,3,4,5B.Tech Student , Department of Electrical and Electronics Engineering, Avanthi Institute of Engineering and Technology, Cherukupally, Vizianagaram - 531162., Andhra Pradesh, India
Email: prasant.oct26@gmail.com
Abstract - The rapid enlargement of electrical automobiles (EVs) has caused the improvement of superior charging technologies geared toward improving comfort, performance, and scalability. most of the numerous charging methods, inductive and conductive technologies are broadly explored due to their capability to form the future of EV infrastructure. Conductive charging, which includes direct electric touch between the charger and the vehicle's battery, guarantees excessive performance and faster charging. In comparison, inductive charging removes physical connectors by way of utilising electromagnetic induction to switch energy wirelessly, imparting person comfort however laid low with lower efficiency and better infrastructure costs. This studies article gives an in-depth comparative analysis of inductive and conductive charging technology, specializing in components such as performance, protection, person convenience, scalability, and operational fees. An assessment of the prevailing literature highlights the blessings and boundaries of both technologies even as figuring out key studies gaps. The have a look at outlines studies targets to optimize those technologies and proposes a hybrid version that leverages the strengths of each technique. The consequences and discussions offer insights into the potential of integrating inductive and conductive charging systems for future EV programs, paving the manner for the improvement of extra efficient and user-friendly charging infrastructure.
key words: Inductive charging, Conductive charging, electric powered vehicles, wireless energy transfer, Charging performance
