Open AccessOPTIMIZATION OF QUASI-CONSTANT MUTUAL INDUCTANCE OF ASYMMETRICAL COILS WITH LATERAL MISALIGNMENT IN WIRELESS POWER TRANSFER SYSTEM
Author(s) -
Zhongqi Li,
Jing Li,
Jiliang Yi,
Liao Wu-xian,
Min Zhang
Publication year - 2019
Publication title -
progress in electromagnetics research m
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.216
H-Index - 31
ISSN - 1937-8726
DOI - 10.2528/pierm19080201
Subject(s) - wireless power transfer , inductance , constant (computer programming) , maximum power transfer theorem , power (physics) , wireless , physics , electrical engineering , computer science , materials science , mechanics , control theory (sociology) , telecommunications , engineering , thermodynamics , voltage , control (management) , artificial intelligence , programming language
In the wireless power transfer system (WPT) via magnetically coupled resonance, the lateral misalignment between the transmission coil and receiving coil may affect the mutual inductance, then the transfer efficiency may be decreased, and the output power may be fluctuated, which lead to an unstable system. In this paper, a calculation method of the mutual inductance of an asymmetrical two-coil structure is presented. Based on the mutual inductance calculation method, an optimization method of quasi-constant mutual inductance is proposed. The key parameters of each coil can be obtained by using the proposed method. The mutual inductance can be kept constant when the misalignment is changed. And the output voltage and efficiency are also nearly constant with different misalignments. Finally, the setup of the asymmetric two-coil WPT system via magnetically coupled resonance is designed. Calculation, simulation, and experimental results validating the proposed method are given.
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