Design and Implementation of an Integrated Planar Transformer for High-Frequency LLC Resonant Converters

2021 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2021-06-14 DOI:10.1109/APEC42165.2021.9487046

Yu-Chen Liu, Chen Chen, Kai-De Chen, Yong-Long Syu, Ching-Chia Chen, Kang Liu, Xingyu Chen, H. Chiu

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引用次数: 1

Abstract

In this study, an LLC resonant converter equipped with an adjustable leakage inductance integrated transformer is proposed and applied to high-power adapters. To achieve high efficiency and power density, the magnetic circuit was increased by substituting the resonant inductor with an adjustable leakage inductance integrated transformer, and a novel core structure was designed to reduce copper loss. To further reduce the core loss and copper loss of the transformer, the core size was analyzed using a parametric technique. Finally, the total loss and physical footprint of the transformer were compared to select the most effective design point as the final design. The FEA 3D simulation was employed to verify the function of the transformer. An integrated transformer with adjustable leakage inductance replaced the resonant inductor in LLC resonant converters. Finally, a resonant converter was achieved with a switching frequency operating at 1 MHz, input voltage of 380 V, output voltage of 19 V, output power of 190 W, power density of 400 W/in3, and maximum efficiency of 94.3%.

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用于高频LLC谐振变换器的集成平面变压器的设计与实现

本文提出了一种带有可调漏感集成变压器的LLC谐振变换器，并将其应用于大功率适配器中。为了提高效率和功率密度，采用可调漏感集成变压器代替谐振电感增加磁路，并设计了新颖的铁芯结构以降低铜损耗。为了进一步降低变压器的铁心损耗和铜损耗，采用参数化技术对铁心尺寸进行了分析。最后对变压器的总损耗和物理占地面积进行比较，选择最有效的设计点作为最终设计。采用有限元三维仿真对变压器的性能进行了验证。采用泄漏电感可调的集成变压器代替有限责任公司谐振变换器中的谐振电感。最后，实现了开关频率为1 MHz、输入电压为380 V、输出电压为19 V、输出功率为190 W、功率密度为400 W/in3、最大效率为94.3%的谐振变换器。

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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2021 IEEE Applied Power Electronics Conference and Exposition (APEC)

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