A Comprehensive Electromagnetic Design, Simulation and Analysis of Wireless Charging Coils for Large Power Applications

This paper presents a comprehensive model of wireless power transfer (WPT) coils using inductive resonance coupling technique, its simulation and detailed analysis for electric vehicle static charger application. The electromagnetic design of coils has been done in ANSYS Maxwell software to obtain self-inductance, mutual inductance and mutual coupling coefficient of coils at different distances. The circuit model of WPT is then simulated in PSIM using transformer model of coils. The power transfer level and efficiency are measured by variation of different parameters i. e., distance, resonance frequency and load. Using Biot-Savart's Law magnetic field value is calculated at receiving end and voltages are then calculated using Faraday's Law. The proposed scheme with optimized parameters has been implemented for a 200 Watts system transferring power with more than 85% efficiency and 113kW/m(2) power density.