Modelling and optimization of planar transformers for high power density step-down DC–DC converters

IF 1.3 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Ziyi Ji, Ziqing Cao, Fuhong Min, Minjie Xu
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Abstract

The optimization of planar transformers with integrated magnetic components is an important research focus when it comes to high efficiency and high power density step-down DC–DC converters. In this paper, to overcome the shortcomings of LLC topologies in variable frequency operation, a DC–DC converter of two-stage regulation with GaN (gallium nitride)–MOSFET is designed to achieve wide voltage range conversion. The planar transformer of the full-bridge LLC circuit is optimized at 12 V DC bus and high-power scenarios. An equivalent resonant inductance model based on the stray inductance and JMAG leakage inductance simulation is proposed, which results in only one magnetic component being used in the LLC. A method to control the resonant inductance and improve the efficiency by changing the PCB trace on the secondary side of the high-step-down-ratio (14:1:1) planar transformer is proposed. To verify the optimization model, two sets of converters with optimized planar transformers, using PQ-type ferrite magnetic cores, have been built. Experimental results show that the voltage conversion range is from 250–500 to 9–16 V, and the converter efficiency is increased to 94.39%@3 kW.

Abstract Image

高功率密度降压型 DC-DC 转换器平面变压器的建模与优化
在高效率和高功率密度降压型 DC-DC 转换器方面,集成磁性元件的平面变压器的优化是一个重要的研究重点。为了克服 LLC 拓扑在变频操作中的缺点,本文设计了一种采用 GaN(氮化镓)-MOSFET 的两级调节 DC-DC 转换器,以实现宽电压范围转换。全桥 LLC 电路的平面变压器在 12 V 直流母线和大功率情况下进行了优化。基于杂散电感和 JMAG 漏感模拟,提出了等效谐振电感模型,从而使 LLC 中只使用了一个磁性元件。提出了一种通过改变高降压比(14:1:1)平面变压器次级侧的 PCB 线迹来控制谐振电感和提高效率的方法。为了验证优化模型,我们使用 PQ 型铁氧体磁芯制作了两套带有优化平面变压器的转换器。实验结果表明,电压转换范围从 250-500 V 到 9-16 V,转换器效率提高到 94.39%@3 kW。
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来源期刊
Journal of Power Electronics
Journal of Power Electronics 工程技术-工程:电子与电气
CiteScore
2.30
自引率
21.40%
发文量
195
审稿时长
3.6 months
期刊介绍: The scope of Journal of Power Electronics includes all issues in the field of Power Electronics. Included are techniques for power converters, adjustable speed drives, renewable energy, power quality and utility applications, analysis, modeling and control, power devices and components, power electronics education, and other application.
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