• DocumentCode
    1419518
  • Title

    Revised Magnetics Performance Factors and Experimental Comparison of High-Flux Materials for High-Current DC–DC Inductors

  • Author

    Rylko, Marek S. ; Lyons, Brendan J. ; Hayes, John G. ; Egan, Michael G.

  • Author_Institution
    Res. Dept., DTW sp. z o.o, Krakowska, Poland
  • Volume
    26
  • Issue
    8
  • fYear
    2011
  • Firstpage
    2112
  • Lastpage
    2126
  • Abstract
    High-flux-density materials, such as iron-based amorphous metal and 6.5% silicon steel for gapped inductors, and powdered alloys for gapless inductors, are very competitive for high-power-density inductors. The high-flux-density materials lead to low weight/volume solutions for high-power dc-dc converters used in hybrid-electric and electric vehicles. In this paper, the analytical selection of the magnetic materials is investigated, and modified performance factors are introduced for convection- and conduction-cooled magnetic components. The practical effects of frequency, dc bias, flux-density derating, duty cycle, airgap fringing on the core loss, and thermal configuration based on lamination direction are investigated for iron-based amorphous metal, 6.5% silicon steel, and iron-based powdered alloy material. A 2.5-kW converter is built to verify the optimum material selection and thermal configuration. Analytical, simulation, and experimental results are presented.
  • Keywords
    DC-DC power convertors; hybrid electric vehicles; inductors; iron alloys; steel; airgap fringing; conduction-cooled magnetic components; convection-cooled magnetic components; electric vehicles; gapless inductors; high-current DC-DC inductors; high-flux-density materials; high-power dc-dc converters; hybrid-electric; iron-based powdered alloy material; power 2.5 kW; revised magnetics performance factors; silicon steel; Iron; Magnetic cores; Powders; Silicon;
  • fLanguage
    English
  • Journal_Title
    Power Electronics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0885-8993
  • Type

    jour

  • DOI
    10.1109/TPEL.2010.2103573
  • Filename
    5680976