Analysis and Optimization of the Loss Distribution for a Two Stage AC/DC Power Supply

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of power electronics Pub Date : 2023-12-12 DOI:10.1109/OJPEL.2023.3341701

Lukas Fräger;Jens Friebe

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Abstract

This paper presents the analysis and optimization procedure of a two-stage bidirectional AC/DC power supply. The exemplary power supply consists of a silicon carbide based active front end and a dual active bridge DC/DC converter. It is designed to supply 600 V DC applications from universal low voltage AC grids with a power up to 6 kW. The paper includes the topology and design considerations, as well as an in-depth loss distribution analysis based on a validated loss model. The loss model is then utilized for an operation space optimization. A special focus is drawn to the loss model and the optimization: It is based on analytical equations optimized for a low calculation effort. This enables quick modeling of a large operation space. Those results can both be used to validate design considerations as well as to optimize operating parameters. The presented dynamic operating parameter optimization enables a loss reduction at full load by 14% and at half load by even 48%. By means of the optimization the operating area can be expanded, losses decreased, and thermal stress reduced.

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交直流两级电源损耗分布分析与优化

本文介绍了一种两级双向 AC/DC 电源的分析和优化程序。示例电源由一个基于碳化硅的有源前端和一个双有源桥 DC/DC 转换器组成。它设计用于从通用低压交流电网向 600 V 直流应用供电，功率可达 6 kW。论文包括拓扑结构和设计考虑因素，以及基于已验证损耗模型的深入损耗分布分析。然后利用损耗模型对运行空间进行优化。本文特别强调了损耗模型和优化：该模型基于分析方程进行优化，计算量小。这样就能快速建立大型运行空间的模型。这些结果既可用于验证设计考虑因素，也可用于优化运行参数。所提出的动态运行参数优化可使满负荷时的损耗降低 14%，半负荷时的损耗甚至降低 48%。通过优化，可以扩大运行区域，降低损耗，减少热应力。

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