400v至48v变压器隔离堆叠有源桥变换器集成磁

Branko Majmunović, Yucheng Gao, Inder Kumar Vedula, S. Khandelwal, D. Maksimović
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引用次数: 0

摘要

提出了一种基于堆叠有源电桥结构的变压器隔离型高降压dc-dc变换器。隔离式SAB (iSAB)变换器由串联堆叠的逆变模块和并联的整流模块组成。为了实现电流隔离,在逆变器和整流桥之间插入变压器。标称降压转换率由逆变器模块数和变压器匝数比决定。为了减少磁性元件的占地面积,变压器耦合在单个磁芯上,并且使用新颖的定制磁芯和平面绕组布置,在同一磁性结构内实现串联电感为可控漏电感,这是iSAB配置的独特解决方案。该方法在400 ~ 48 V, 3kW, 400kHz的iSAB原型上得到了实验结果的验证,该原型使用低压GaN器件,峰值效率为96.7%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
400V-to-48V Transformer-Isolated Stacked Active Bridge Converter with Integrated Magnetics
This paper presents a transformer-isolated high step-down dc-dc converter based on a stacked active bridge (SAB) configuration. The isolated SAB (iSAB) converter consists of series-stacked inverter modules and parallel-connected rectifier modules. To achieve galvanic isolation, transformers are inserted between the inverter and rectifier bridges. The nominal step-down conversion ratio is determined by the number of inverter modules and the turns ratio of the transformer. In order to reduce the footprint of the magnetic components, the transformers are coupled on a single core, and the series inductances are realized as controllable leakage inductances within the same magnetic structure using a novel custom core and planar winding arrangement, a solution unique to the iSAB configuration. The approach is verified by experimental results on a 400-to-48 V, 3kW, 400kHz iSAB prototype using low-voltage GaN devices and having 96.7% peak efficiency.
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