Design methodology and fabrication process of a microinductor for the next generation of DC-DC power converters

David Flynn; Marc P. Y. Desmulliez

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Design methodology and fabrication process of a microinductor for the next generation of DC-DC power converters

机译：下一代DC-DC电源转换器的微电感的设计方法和制造过程

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Magnetic materials used in cored microinductors to supersede ferrite in the 0.5-10 MHz frequency range are investigated in this article. The performance of electrodeposited nickel-iron, cobalt-iron-copper alloys and the commercial alloy Vitrovac 6025 have been assessed through their inclusion within a custom-made solenoid microinductor. Although the present inductor achieves 77% power efficiency at 500 KHz for 24.7 W/cm{sup}3 power density, an optimized process predicts a power efficiency of 97% for 30.83 W/cm{sup}3 power density. The main issues regarding microinductor design and performance are discussed.

机译：本文研究了有芯微电感器中用于取代0.5-10 MHz频率范围内的铁氧体的磁性材料。电沉积的镍铁合金，钴铁铜合金和商用合金Vitrovac 6025的性能已通过将其包含在定制的螺线管微电感器中进行了评估。尽管目前的电感器在24.7 W / cm {sup} 3的功率密度下，在500 KHz处实现了77％的功率效率，但优化的工艺预测，在30.83 W / cm {sup} 3的功率密度下，功率效率为97％。讨论了有关微电感器设计和性能的主要问题。

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《Microsystem technologies》 |2009年第8期|共11页
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David Flynn; Marc P. Y. Desmulliez;
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Design methodology and fabrication process of a microinductor for the next generation of DC-DC power converters

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