Conformal Transformation Analysis of Capacitive Wireless Charging
Permanent lenke
https://hdl.handle.net/10037/27044Dato
2022-09-30Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
This paper studies the capacitive coupling in a capacitive power transfer (CPT) system
designed for charging applications. It proposes mathematical models using the conformal transformation
for calculating air-gapped and underwater capacitance and verifies the proposed models using COMSOL
multiphysics and measurements. The measured results show that we can achieve nano-farad capacitance
ranges if we submerge the capacitor in seawater. The seawater’s capacitance slightly changes when we
increase the gap distance or the operating frequency. As the under seawater CPT system can be an attractive
option for loosely-coupled charging applications, we further examine the system by focusing on the crosscoupling effects. The results show that the cross-coupling between the plate degrades the system’s power
transfer capability and efficiency. With negligible cross-coupling effects, the system gives 129 W output
power at an efficiency of 81.2%.
Er en del av
Al-Sallami, H. (2023). Capacitive power transfer for maritime electrical charging applications. (Doctoral thesis). https://hdl.handle.net/10037/29473.Forlag
IEEESitering
Al-Sallami, Hoff, Ellingsen, Østrem. Conformal Transformation Analysis of Capacitive Wireless Charging. IEEE Access. 2022;10:105621-105630Metadata
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