Abstract
To meet the regulations established to limit human exposure to time-varying electromagnetic fields (EMFs) such as the International Committee on Non-Ionizing Radiation Protection (ICNIRP) guidelines, thin metallic sheets are often used to shield magnetic field leakage in high power applications of wireless power transfer (WPT) systems based on magnetic field coupling. However, the metals in the vicinity of the WPT coils cause the decrease of self and mutual inductances and increase of effective series resistance; as such, the electric performance including transmission power and the efficiency of the system is affected. With the research objective of further investigating excellent shielding effectiveness associated with system performance, the utilization of the optimal magnetic field shielding method by metallic sheets in magnetic field coupling WPT is carried out in this paper. The circuit and 3D Finite Element Analysis (FEA) models are combined to predict the magnetic field distribution and electrical performance. Simulation and experiment results show that the method is very effective by obtaining the largest possible coupling coefficient of the WPT coils within the allowable range and then reducing the value nearest to and no smaller than the critical coupling coefficient via geometric unbroken metallic sheets. The optimal magnetic field shielding method which considers the system efficiency, transmission power, transmission distance, and system size is also achieved using the analytic hierarchy process (AHP). The results can benefit WPT by helping to achieve efficient energy transfer and safe use in metal shielded equipment.
Highlights
Wireless power transfer (WPT) technology using magnetic field coupling, offering wireless mid-range power transmission, has been used for a variety of applications, such as implantable biomedical devices, mobile electronics, household appliances, and electric vehicles [1,2,3,4]
As the wireless power transfer (WPT) technology is becoming more widely used in high power applications, human exposure to time-varying electromagnetic fields (EMFs) increases
The parameters of the WPT system are influenced by the metallic sheets that are in a close proximity
Summary
Wireless power transfer (WPT) technology using magnetic field coupling, offering wireless mid-range power transmission, has been used for a variety of applications, such as implantable biomedical devices, mobile electronics, household appliances, and electric vehicles [1,2,3,4]. 22 of transfer efficiency can be optimized and the position error tolerance can be improved by placing the position error tolerance can be improved by placing two metallic sheets symmetrically behind the two metallic sheets symmetrically behind the driving and pick-up coils [9,10]. We study the effects and system performance of shielding materials on the field from a magnetic field coupling WPT system. Analysis (FEA) models are combined to predict the magnetic field distribution and electrical the geometric configuration of the metallic sheets and the coupling condition of the WPT coils, the performance. Using the analytic hierarchy process (AHP), an optimal condition of the WPT coils, the metal shielding effectiveness is investigated. Using the analytic magnetic field shielding method that considers the system efficiency, transmission power, transmission hierarchy process (AHP), an optimal magnetic field shielding method that considers the system distance, and system size is achieved. Efficiency, transmission power, transmission distance, and system size is achieved
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