This paper proposes the analysis of a magnetic controlled LCC-S compensated Wireless Power Transfer system that regulates the transferred load power by varying the magnetization level of a variable inductor. A steady-state analysis of the LCC-S compensation network is proposed, a design example of a controlled variable inductor for a 100 W Wireless Power Transfer system is described, and the simulation results are provided, considering the non-linear magnetic model of the variable inductor
Magnetic Control of LCC-S Compensated Wireless Power Transfer System / Solimene L.; Corti F.; Musumeci S.; Ragusa C.S.; Reatti A.. - ELETTRONICO. - (2022), pp. 160-165. (Intervento presentato al convegno SPEEDAM 2022) [10.1109/SPEEDAM53979.2022.9842241].
Magnetic Control of LCC-S Compensated Wireless Power Transfer System
Corti F.;Ragusa C. S.;Reatti A.
2022
Abstract
This paper proposes the analysis of a magnetic controlled LCC-S compensated Wireless Power Transfer system that regulates the transferred load power by varying the magnetization level of a variable inductor. A steady-state analysis of the LCC-S compensation network is proposed, a design example of a controlled variable inductor for a 100 W Wireless Power Transfer system is described, and the simulation results are provided, considering the non-linear magnetic model of the variable inductor
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