Flyback Micro-Converter Design with an Integrated Octagonal Micro-Transformer for DC-DC Conversion

International journal of electrical & electronics research Pub Date : 2023-10-25 DOI:10.37391/ijeer.110402

Mokhtaria Derkaoui, Yamina Benhadda

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Abstract

The work presented in this paper concerns the design of an integrated flyback DC-DC micro-converter operating at high frequencies. The flyback converter consists of only one transformer. The integrated micro-transformer in the flyback micro-converter is composed of two planar stacked coils with spiral octagonal geometry. Basing on Mohan’s method, the geometrical parameters are evaluated. The different parasitic effects created in the stacked layers are grouped perfectly in the equivalent electrical circuit that summarizes all parasitic effects. The integrated micro-transformer is characterized by scattering parameters extraction. The thermal and electromagnetic effects generated in the micro-transformer are illustrated, using finite elements method on COMSOL Multiphysics 5.3 software. To validate the electrical model, the simulation of the flyback micro-converter containing the equivalent electrical circuit of the micro-transformer is established, using PSIM 9.0 software. The gap between the coils is considered as an integrated MIM capacitor created at high frequencies leads to create a low pass micro-filter with the secondary coil.

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基于集成八角形微变压器的DC-DC转换反激微变换器设计

本文所做的工作是设计一种工作在高频率下的集成反激DC-DC微变换器。反激变换器仅由一个变压器组成。反激式微变换器中的集成微变压器由两个平面堆叠线圈构成，呈螺旋八角形。基于Mohan方法，对几何参数进行了计算。在堆叠层中产生的不同寄生效应被完美地分组在等效电路中，该电路总结了所有寄生效应。利用散射参数提取对集成微变压器进行了表征。利用COMSOL Multiphysics 5.3软件的有限元方法，对微变压器内部产生的热效应和电磁效应进行了分析。为了验证电学模型，利用PSIM 9.0软件对包含微变压器等效电路的反激式微变换器进行了仿真。线圈之间的间隙被认为是在高频下创建的集成MIM电容器，导致与次级线圈创建低通微滤波器。

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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International journal of electrical & electronics research

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