基于PLECS的Si IGBT和SiC MOSFET逆变器并联集成电源的热分析

IF 0.2 Q4 AREA STUDIES
Shen Che, Cheng Peng, Zishun Peng, Yuxing Dai, W. Hu
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引用次数: 0

摘要

逆变器是新能源电动汽车电驱动系统的重要组成部分。复杂的工况条件和用户需求对电动汽车主传动逆变器的容量、效率、成本、功率密度和可靠性提出了更为苛刻的要求。如果逆变器仅由硅基功率器件或碳化硅功率器件组成,则很难兼顾这些性能指标。为了有效地解决这些问题,将硅IGBT逆变器与硅MOSFET逆变器并联构成集成电源是一种可行的解决方案。由于不同功率器件的耦合特性,该结构的相关研究尚处于初级阶段。作为并联集成电源的关键指标,功耗和结温参数的研究还不够充分和深入。本文推导并分析了正弦脉宽调制下并联结构的损耗,并在PLECS仿真软件中建立了电路模型和损耗模型。仿真结果与理论计算结果相互验证,仿真结果可作为逆变器散热设计的依据。针对逆变器的并联结构,提出了一种多目标数学模型,作为并联逆变器器件选择和负载功率设计的依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal Analysis of Integrated Power Supply in Parallel with Si IGBT and SiC MOSFET Inverter Based on PLECS
Inverters are an important part of the electric drive system of new energy electric vehicles. Complex working conditions and user demands put forward more demanding requirements on the capacity, efficiency, cost, power density and reliability of the main drive inverters of electric vehicles. It is difficult to take into account these performance indicators if the inverter is composed of silicon-based power devices or silicon carbide power devices alone. In order to solve these problems effectively, the integrated power supply composed of Si IGBT inverter and SiC MOSFET inverter in parallel is a feasible solution. Due to the coupling characteristics of different power devices, the related research of this structure is in the preliminary stage. Power loss and junction temperature parameters as key indicators of parallel integrated power supply are not fully and deeply studied. In this paper, the loss of the parallel structure under sinusoidal pulse width modulation is deduced and analyzed, and the circuit model and loss model are built in the simulation software PLECS. The simulation results and theoretical calculation results are verified each other, and the simulation results can be used as the basis for the heat dissipation design of the inverter. Aiming at the parallel structure of the inverter, a multi-objective mathematical model is proposed as the basis for device selection and load power design of the parallel inverter.
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CiteScore
1.20
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