Design and development of a fractional-turn transformer for high power density LLC resonant converters

2021 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2021-06-14 DOI:10.1109/APEC42165.2021.9487397

Yu-Chen Liu, Chen Chen, Kai-De Chen, Yong-Long Syu, Wen-Hao Xue, Yunfei Chen, Katherine A. Kim, H. Chiu

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引用次数: 1

Abstract

This study proposes a 48 V – 6 V isolated direct current DC-DC converter using an LLC series resonant converter with wide bandgap GaN components under a 1-MHz switching frequency. A loss analysis was performed on different primary circuit structures for the converter, and a full-bridge structure was selected. In addition, a quarter-turn planar transformer structure was adopted. With the voltage conversion ratio of 8:1 unchanged, the adopted transformer required fewer primary and secondary winding turns, with lower alternating current copper losses, compared with an average transformer. The study also explored and optimized parallel arrangements of transformer windings, adopted parametric design of transformer dimensions, and determined the optimal balance between core losses and copper losses in a limited circuit area. The magnetic simulation software Ansys Maxwell was used to verify the magnetic flux distribution of the quarter-turn planar transformer. An experiment confirmed that the proposed LLC series resonant converter has a switching frequency, input voltage, output voltage, output power, power density, and peak efficiency of 1 MHz, 48 V, 6 V, 900 W, 63 W/cm3, and 98.2%, respectively.

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高功率密度LLC谐振变换器用分数匝变压器的设计与研制

本研究提出了一种48 V - 6 V隔离直流DC-DC变换器，采用LLC串联谐振变换器和宽带隙GaN元件，开关频率为1 mhz。对变换器的不同一次电路结构进行了损耗分析，选择了全桥结构。此外，还采用了四分之一匝平面变压器结构。在电压转换比为8:1不变的情况下，与普通变压器相比，所采用的变压器一次绕组匝数和二次绕组匝数更少，交流铜损耗更低。探索并优化了变压器绕组并联布置，采用变压器尺寸参数化设计，确定了有限电路面积下铁心损耗与铜损的最佳平衡。利用磁力仿真软件Ansys Maxwell对四分之一匝平面变压器的磁通分布进行了验证。实验证实，该LLC系列谐振变换器的开关频率、输入电压、输出电压、输出功率、功率密度和峰值效率分别为1 MHz、48 V、6 V、900 W、63 W/cm3和98.2%。

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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