This paper analyzes two different design procedures for a series-parallel compensated WPT battery charger, based on different definitions of the operating resonant frequency in the condition of maximum link efficiency. The behaviour of the voltage gain magnitude and the input impedance angle of the resulting WPT links is studied for different loads and coupling coefficients. The design algorithms are supported by analytical formulas derived from an exact circuit analysis of the WPT link, avoiding approximations as far as possible. To support the theoretical approach a case study is proposed, in which both design procedures are implemented considering specifications in line with the actual automotive standards. To conclude, a characterization of the efficiency in both cases is derived.
Simonazzi M., Campanini A., Sandrolini L., Rossi C. (2022). Design procedure based on maximum efficiency for wireless power transfer battery chargers with lightweight vehicle assembly. ENERGIES, 15(1), 1-12 [10.3390/en15010070].
Design procedure based on maximum efficiency for wireless power transfer battery chargers with lightweight vehicle assembly
Simonazzi M.;Campanini A.;Sandrolini L.;Rossi C.
2022
Abstract
This paper analyzes two different design procedures for a series-parallel compensated WPT battery charger, based on different definitions of the operating resonant frequency in the condition of maximum link efficiency. The behaviour of the voltage gain magnitude and the input impedance angle of the resulting WPT links is studied for different loads and coupling coefficients. The design algorithms are supported by analytical formulas derived from an exact circuit analysis of the WPT link, avoiding approximations as far as possible. To support the theoretical approach a case study is proposed, in which both design procedures are implemented considering specifications in line with the actual automotive standards. To conclude, a characterization of the efficiency in both cases is derived.| File | Dimensione | Formato | |
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