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  4. Highly Efficient Inductor Design Using X-Winding Concept with Distributed Air Gaps
 
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2024
Conference Paper
Title

Highly Efficient Inductor Design Using X-Winding Concept with Distributed Air Gaps

Abstract
This work introduces a novel design method to reduce power losses caused by fringing fields in high-power-density inductors. By integrating circular clearances and distributed air gaps, the proposed design leverage fringing flux to uniform current distribution in the winding, thereby minimizing AC resistance. Compared to the conventional methods, the proposed method achieves both lowest core profile and AC resistance. In 3D finite element method (FEM) simulations, it achieves a 35% reduction in AC resistance compared to a conventional EE core design with a same box volume, and a 33% lower core profile than a conventional EI core design with even 15% lower AC resistance. Finally, the proposed X-winding concept is applied in printed circuit board (PCB) and the simulation results are verified by experimental measurements.
Author(s)
Chen, Tianxiao
Huawei Nuremberg Research Center
Bezerra, Pedro André Martins
Huawei Nuremberg Research Center
He, Zhengyan
Huawei Nuremberg Research Center
Wang, Jinlongv
Huawei Nuremberg Research Center
Hoene, Eckart  
Fraunhofer-Institut für Zuverlässigkeit und Mikrointegration IZM  
Mainwork
Ecce Europe 2024 Energy Conversion Congress and Expo Europe Proceedings
Conference
2024 Energy Conversion Congress and Expo Europe, ECCE Europe 2024
DOI
10.1109/ECCEEurope62508.2024.10751956
Language
English
Fraunhofer-Institut für Zuverlässigkeit und Mikrointegration IZM  
Keyword(s)
  • eddy current loss

  • finite-element analysis

  • fringing field

  • Magnetic device

  • planar magnetics

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