Design of Magnetic Structure for Omnidirectional Wireless Power Transfer

Design of Magnetic Structure for Omnidirectional Wireless Power Transfer

Recently, an omnidirectional wireless power transfer (WPT) has attracted attention as a solution to the limitations of free-positioning and mobility of conventional WPT. However, the efficiency of the omnidirectional WPT is reduced due to the low mutual inductance relative to the transmitter size. T...

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Bibliographic Details
Published in:IEEE transactions on power electronics Vol. 36; no. 8; pp. 8849 - 8860
Main Authors: Cha, Hwa-Rang, Park, Kwang-Rock, Kim, Tae-Jin, Kim, Rae-Young
Format: Journal Article
Language:English
Published: New York IEEE 01-08-2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Capacitors
Coils
Design optimization
Efficiency
Finite element method
Inductance
Inductive power transfer
Magnetic cores
Magnetic fields
Magnetic structure
Multiple objective analysis
omnidirectional wireless power transfer (WPT)
optimization design
Orthogonality
Pareto optimization
Power transmission
Receivers
Transmitters
Wireless power transmission
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Summary:Recently, an omnidirectional wireless power transfer (WPT) has attracted attention as a solution to the limitations of free-positioning and mobility of conventional WPT. However, the efficiency of the omnidirectional WPT is reduced due to the low mutual inductance relative to the transmitter size. Therefore, this article proposed an optimal magnetic structure to improve efficiency without increasing the size of the transmitter. Four magnetic structure candidates (spherical, cubical, crossed bar, three-orthogonal plane core) are presented and their performances are compared using finite element analysis software. A Pareto optimal set is selected using a multiobjective optimization design, and the optimal magnetic structure is determined considering the weight of the objective variable and the Tchebycheff distance. The optimal magnetic structure and omnidirectional WPT prototype are built for performance verification. The experimental results are consistent with the simulation results and demonstrate that the optimal magnetic structure improves the efficiency in the three-dimensional space. When the power transmission distance is 150 mm, the system efficiency is improved up to 18.6%.
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2021.3055863