Review and Prospect of Software Digital Design for Electric Vehicle Power Control Unit

被引：0

作者：

He S. ^{[1
]}

Yang H. ^{[1
]}

Wang H. ^{[2
]}

Shen J. ^{[3
]}

Li W. ^{[1
]}

机构：

[1] College of Electrical Engineering, Zhejiang University, Hangzhou

[2] Intelligent Manufacturing College, Taizhou University, Taizhou

[3] Leadrive Technology (Shanghai) Co. Ltd, Shanghai

来源：

Diangong Jishu Xuebao/Transactions of China Electrotechnical Society | 2021年 / 36卷 / 24期

关键词：

Digital design; Digital twins; Electric vehicles; Power electronic design automation;

D O I：

10.19595/j.cnki.1000-6753.tces.211028

中图分类号：

学科分类号：

摘要：

As the core component of electric vehicles (EV), the high safety and high performance requirements of power control unit (PCU) have led to the great challenges of high coverage and high efficiency for the PCU software design and verification. With the advantages of good flexibility, high efficiency and low cost, digital design is expected to be an effective way to follow the trend of power electronic design automation (PEDA). In this paper, the state-of-the-art developments in the digital design and verification of PCU software are thoroughly reviewed from the aspects of digital platform, mathematical modeling and numerical algorithm. Especially, the basic structures of digital platform are discussed and summarized, the modeling methods and numerical algorithms are detailedly introduced and evaluated from the criteria of fidelity, speed and complexity. Finally, the major challenges and future possible research topics of PEDA are prospected. © 2021, Electrical Technology Press Co. Ltd. All right reserved.

引用

页码：5101 / 5114

页数：13

共 61 条

[1] Global EV outlook 2020, (2020)
[2] Wu Lihao, Zhang Bo, Overview of static wireless charging technology for electric vehicles: part Ⅰ, Transactions of China Electrotechnical Society, 35, 6, pp. 1153-1165, (2020)
[3] Zhang Dong, Fan Tao, Wen Xuhui, Et al., Research on high power density SiC motor drive controller, Proceedings of the CSEE, 39, 19, pp. 5624-5634, (2019)
[4] Zhang Jun, Zhang Li, Cheng Yu, Review of the lifetime evaluation for the IGBT module, Transactions of China Electrotechnical Society, 36, 12, pp. 2560-2575, (2021)
[5] (2017)
[6] Belanger J, Venne P, Paquin J N., The what, where, and why of real-time simulation, Planet RT, 1, 1, pp. 37-49, (2010)
[7] Yuan Liqiang, Lu Zixian, Sun Jianning, Et al., Design automation for electrical energy router-design work-flow framework and genetic algorithm: a review, Transactions of China Electrotechnical Society, 35, 18, pp. 3878-3893, (2020)
[8] Hermanns K, Peng Y, Mantooth A., The increasing role of design automation in power electronics: gathering what is needed, IEEE Power Electronics Magazine, 7, 1, pp. 46-50, (2020)
[9] Yuan Liqiang, Lu Zixian, Dai Yuxuan, Et al., Key factors and methodology of high-performance design automation solver for power electronics, Proceedings of the CSEE, 41, 20, pp. 7055-7068, (2021)
[10] Vardhan H, Akin B, Jin H., A low-cost, high-fidelity processor-in-the loop platform: for rapid prototyping of power electronics circuits and motor drives, IEEE Power Electronics Magazine, 3, 2, pp. 18-28, (2016)

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