Enhancing Magnetic Coupling Using Auxiliary Short-Circuited Coils

The efficiency of Dynamic Inductive Power Transfer (DIPT) depends mainly on the coupling coefficient within the coupler. In order to improve this parameter, a novel approach has been introduced that results in a significant increase of between 25% and 36% at minimal additional cost in the case of ju...

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Veröffentlicht in:	Magnetism 2024-10, Vol.4 (4), p.322-331
Hauptverfasser:	Phulpin, Tanguy, Kabbara, Wassim, Terrah, Mohammed, Smail, Mostafa-Kamel, Bensetti, Mohamed
Format:	Artikel
Sprache:	eng
Schlagworte:	coupling factor dynamic inductive power transfer (DIPT) efficiency Electromagnetism Engineering Sciences
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container_title	Magnetism
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creator	Phulpin, Tanguy Kabbara, Wassim Terrah, Mohammed Smail, Mostafa-Kamel Bensetti, Mohamed
description	The efficiency of Dynamic Inductive Power Transfer (DIPT) depends mainly on the coupling coefficient within the coupler. In order to improve this parameter, a novel approach has been introduced that results in a significant increase of between 25% and 36% at minimal additional cost in the case of juxtaposed rectangular coil configuration on the road. This method involves the incorporation of a passive additional short-circuit coil adjacent to the primary coil for obtaining a higher coupling coefficient, as has been theoretically demonstrated. Simulations carried out on Comsol have optimized the dimensions of this additional coil, not only for cost effectiveness and minimal space utilization, but also for optimal efficiency. Experimental validation was performed at reduced power, using a 2 kW test bench, and confirmed the estimation. The efficiency improvement proposed in this paper is crucial for improving the global DIPT efficiency and then facilitating its social acceptance.
doi_str_mv	10.3390/magnetism4040021
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subjects	coupling factor dynamic inductive power transfer (DIPT) efficiency Electromagnetism Engineering Sciences
title	Enhancing Magnetic Coupling Using Auxiliary Short-Circuited Coils
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