Implementation of low loss Mn-Zn ferrite cores for power electronics applications

2006 IEEE Power India Conference Pub Date : 2006-06-05 DOI:10.1109/POWERI.2006.1632595

H. Nien, T. Liang, C.K. Huang, S. Changchien, H. W. Shieh

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引用次数: 6

Abstract

Simultaneous introduction of CaO, Co2O3 and MoO3 dopants into low loss manganese-zinc soft ferrites remarkably improves the power loss characteristic of the ferrite cores. Since the driving frequency of switching power supplies has been raised from several kHz to more than 1 MHz, the power loss of the magnetic devices must be reduced. The eddy current loss of soft ferrite will take a major proportion of iron loss in these high-frequency switching power supplies. An attempt was made to develop low loss Mn-Zn polycrystalline ferrites by increasing resistivity to decrease eddy current loss. Doped Mn-Zn ferrites were prepared by conventional ceramic technique and sintered at the temperature of 1320degC for 1-8 hours respectively in air. The DC resistivity was measured by using four-probe methods on sintered disks whose sides were polished and coated with a thin layer of silver paste as a good contact material. The magnetic permeability at room temperature was measured by using an impedance analyzer (Hewlett-Packard, Model HP4294A) with HP-16047 test fixture. The core loss of Mn0.58Zn0.37Co0.01Fe2.04 O4 ferrite doped with 0.08 wt% MoO3 is 370 mW/c.c at 500 kHz/70 mT

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电力电子应用低损耗锰锌铁氧体铁芯的实现

在低损耗锰锌软铁氧体中同时引入CaO、Co2O3和MoO3掺杂剂，显著改善了铁氧体铁芯的功率损耗特性。由于开关电源的驱动频率已经从几kHz提高到1mhz以上，因此必须降低磁性器件的功率损耗。在这些高频开关电源中，软铁氧体的涡流损耗将占铁损耗的很大比例。通过提高电阻率来降低涡流损耗，尝试研制低损耗锰锌多晶铁氧体。采用常规陶瓷工艺制备掺杂Mn-Zn铁氧体，分别在1320℃的温度下在空气中烧结1 ~ 8小时。采用四探针法测量了烧结盘的直流电阻率，烧结盘的侧面经过抛光处理，并涂上一层薄薄的银膏作为良好的接触材料。采用HP-16047测试夹具，采用惠普HP4294A型阻抗分析仪测量室温下的磁导率。掺0.08 wt% MoO3的Mn0.58Zn0.37Co0.01Fe2.04 O4铁氧体在500 kHz/70 mT时的铁芯损耗为370 mW/c.c

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2006 IEEE Power India Conference

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