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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 practical effects of frequency,...
Iron-based amorphous metal and 6.5 % silicon steel are competitive materials for high-power-density inductors in the low-to-medium-frequency range, and lead to a low cost and low weight/volume solution for high-power dc-dc converters. In this paper, the practical effects of frequency, ripple, air-gap fringing, and thermal configuration are investigated for these materials. Inductor size can increase...
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