Novel Isolated Bidirectional Integrated Dual Three-Phase Active Bridge (D3AB) PFC Rectifier

2018 International Power Electronics Conference (IPEC-Niigata 2018 -ECCE Asia) Pub Date : 2018-05-20 DOI:10.23919/IPEC.2018.8507362

F. Krismer, E. Hatipoglu, J. Kolar

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引用次数: 14

Abstract

This Paper proposes a novel Dual Three-Phase Active Bridge (D3AB) PFC rectifier topology for a 400 V dc distribution system, which features galvanic isolation, bidirectional power conversion capability, a high level of component integration, and can be dimensioned with respect to high efficiency. In the course of a comprehensive and in-depth analytical investigation, the working principle of the D3AB PFC rectifier is described in order to enable converter modelling and the derivation of mathematical expressions and limitations needed for converter design and optimization. The developed converter models are verified by means of circuit simulations. An overall optimization of a system with 400 V line-to-line input voltage, 400 V dc output, and Pout = 8 kW rated power with respect to efficiency and power density reveals the feasibility of a full-load efficiency of 98.1% and a power density of 4 kW/dm3 if SiC MOSFETs are used. The finally presented design is found to achieve efficiencies greater than 98 % for Pout > 1.7 kW.

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新型隔离双向集成双三相有源桥(D3AB) PFC整流器

本文提出了一种新型的用于400v直流配电系统的双三相有源桥(D3AB) PFC整流器拓扑结构，该拓扑结构具有电流隔离、双向功率转换能力、高水平的组件集成度和高效率的尺寸化特点。在全面深入的分析研究过程中，描述了D3AB PFC整流器的工作原理，以便进行转换器建模和数学表达式的推导以及转换器设计和优化所需的限制。通过电路仿真验证了所建立的变换器模型的正确性。对400 V线对线输入电压、400 V直流输出、Pout = 8 kW额定功率的系统进行了整体优化，结果表明，如果使用SiC mosfet，系统的满载效率可达98.1%，功率密度可达4 kW/dm3。最后提出的设计被发现实现效率大于98%的Pout > 1.7 kW。

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2018 International Power Electronics Conference (IPEC-Niigata 2018 -ECCE Asia)

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