Optimal Design and Analysis of the Stepped Core for Wireless Power Transfer Systems

الملخص EN

The key of wireless power transfer technology rests on finding the most suitable means to improve the efficiency of the system.

The wireless power transfer system applied in implantable medical devices can reduce the patients’ physical and economic burden because it will achieve charging in vitro.

For a deep brain stimulator, in this paper, the transmitter coil is designed and optimized.

According to the previous research results, the coils with ferrite core can improve the performance of the wireless power transfer system.

Compared with the normal ferrite core, the stepped core can produce more uniform magnetic flux density.

In this paper, the finite element method (FEM) is used to analyze the system.

The simulation results indicate that the core loss generated in the optimal stepped ferrite core can reduce about 10% compared with the normal ferrite core, and the efficiency of the wireless power transfer system can be increased significantly.