A 20-MHz 1.8-W DC–DC Converter With Parallel Microinductors and Improved Light-Load Efficiency

Feeney C.; Wang N.; O Mathuna S.C.; Duffy M.

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A 20-MHz 1.8-W DC–DC Converter With Parallel Microinductors and Improved Light-Load Efficiency

机译：具有并行微电感器和改善的轻载效率的20MHz 1.8W DC-DC转换器

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摘要

The purpose of this paper is to show that distributing microinductors in parallel can reduce light-load losses, while also maintaining the same overall footprint area and the same effective inductance as a single microinductor. The performance of parallel microinductors is compared in a number of configurations to demonstrate which configuration provides the best overall performance in terms of circuit size, conversion efficiency, and power handling. Light-load saving techniques are implemented demonstrating the potential of parallel inductors to improve efficiency at light-load. Measured and modeled results of efficiency versus load are presented for the prototype DC–DC converters explored, and a peak efficiency of 74% is predicted for a 1.8 W, 20-MHz DC–DC converter including microinductors.

机译：本文的目的是表明，并联分布微电感器可以减少轻载损耗，同时还可以保持与单个微电感器相同的总覆盖面积和相同的有效电感。在多种配置中对并联微电感器的性能进行了比较，以证明哪种配置在电路尺寸，转换效率和功率处理方面可提供最佳的整体性能。实现了轻载节能技术，展示了并联电感器的潜力，可提高轻载效率。给出了所探索的原型DC-DC转换器的效率与负载的测量和模型化结果，对于包括微型电感器的1.8W，20MHz DC-DC转换器，预计峰值效率为74％。

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来源
《Power Electronics, IEEE Transactions on》 |2015年第2期|771-779|共9页
作者
Feeney C.; Wang N.; O Mathuna S.C.; Duffy M.;
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作者单位

Power Electronic Research Centre , NUI Galway, Galway, Ireland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Inductance; Inductors; MOSFET; Magnetic cores; Resistance; Switches; Windings; DC–DC converters; PFM; inductors-on-silicon; light-load efficiency; microfabricated; microinductor; thin-film inductors;

机译：电感;电感器MOSFET;磁芯;抵抗性;开关;绕组;DC-DC转换器;PFM;硅上电感;轻载效率超细加工微电感薄膜电感器;

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A 20-MHz 1.8-W DC–DC Converter With Parallel Microinductors and Improved Light-Load Efficiency

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