Study on the transmission characteristics of magnetic resonance wireless power transfer system

Abstract: Magnetic coupling resonance wireless power transfer technology has attracted worldwide attention in recent years due to its mid-range, non-radiative, and high-efficiency power transfer. However, in regard to its practical applications, there are still some issues that need to be considered and studied with respect to coil design, such as coil structure, and parasitic parameter extraction. This paper investigated the characteristics of magnetic coupling resonance wireless power transfer systems with different c… Show more

“…2, when the two coils are parallel, the component of the magnetic flux density along the z-axis generated by the coils is considered. According to the Biot-Savart law, the magnetic flux density generated by the finite current-carrying wire C i D i at any point W(x, y, z) in space can be derived as [20] ( )…”

Optimal Design of Transmission Characteristics for Hexagonal Coil Wireless Power Transfer System Based on Genetic Algorithm

“…2, when the two coils are parallel, the component of the magnetic flux density along the z-axis generated by the coils is considered. According to the Biot-Savart law, the magnetic flux density generated by the finite current-carrying wire C i D i at any point W(x, y, z) in space can be derived as [20] ( )…”

Optimal Design of Transmission Characteristics for Hexagonal Coil Wireless Power Transfer System Based on Genetic Algorithm