准集成磁是提高功率变换器功率密度和效率的重要途径

Proceedings of APEC 97 - Applied Power Electronics Conference Pub Date : 1997-02-23 DOI:10.1109/APEC.1997.581481

I. Jitaru, A. Ivascu

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引用次数: 8

摘要

本文提出了几种拓扑结构，可以更好地利用变压器的磁芯。在这些拓扑结构中，主变压器也成为磁性存储元件，减小了输出滤波器的尺寸。准积分电磁学是介于常规电磁学和全积分电磁学之间的一种中间方法，具有各自的优点和局限性。作者还提出了带和不带二次绕组抽头的准集成磁拓扑结构。提出了两种消除二次绕组抽头的方法，一种是采用电流倍频器，另一种是采用两个对称变压器。建立了两个100w, 5v, 20a的实验功率变换器，并在两种不同的实现下使用准集成磁进行了评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Quasi-integrated magnetic an avenue for higher power density and efficiency in power converters

This paper presents several topologies that lead to a better utilization of a transformer's magnetic core. In these topologies, the main transformer also becomes a magnetic storage element, reducing the size of the output filter. Quasi-integrated magnetics are presented as an intermediate step between conventional and fully-integrated magnetics underlying their advantages and limitations. The authors also present quasi-integrated magnetic topologies with and without secondary winding taps. Two methods of eliminating the secondary winding taps are suggested, one by using a current-doubler and the second by employing two symmetrical transformers. Two 100 W, 5 V, 20 A experimental power converters were built and evaluated, using quasi-integrated magnetics under two different implementations.

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Proceedings of APEC 97 - Applied Power Electronics Conference

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