Research on open-circuit fault diagnosis method of ANPC three-level inverter based on switching modulation strategy

被引：0

作者：

Chen, Yiwei ^{[1
]}

Xu, Yonghai ^{[1
]}

Yuan, Chang ^{[1
]}

Song, Xinyi ^{[1
]}

Sun, Shuguang ^{[1
]}

机构：

[1] School of Electrical and Electronic Engineering, North China Electric Power University, Beijing

来源：

Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control | 2025年 / 53卷 / 02期

关键词：

ANPC three-level inverter; fault diagnosis; open-circuit fault; switching modulation strategy;

D O I：

10.19783/j.cnki.pspc.240635

中图分类号：

学科分类号：

摘要：

Since switching device faults are the main type of faults in active neutral point clamped (ANPC) three-level inverters, quickly locating the faulty devices is of great significance to improve the reliability of ANPC three-level inverters. For open-circuit faults of switching devices in ANPC three-level inverters, the impact of switching device faults on output current under different modulation algorithms and the influence of the phase difference between output current and load-side voltage on fault current waveform are analyzed from the perspective of propagation paths. Using the three-phase output current as the fault characteristic quantity, an open-circuit fault diagnosis method for ANPC three-level inverters based on switching modulation strategy is proposed. The current averaging method is used to initially determine the approximate range of the faulty switching device, and then the switching modulation strategy is used to precisely locate the faulty device. Finally, simulations and experiments verify that the method can locate faults within one fundamental waveform cycle, with advantages of fast detection speed, strong anti-interference ability, and no need for additional sensors for fault detection. © 2025 Power System Protection and Control Press. All rights reserved.

引用

页码：27 / 37

页数：10

共 25 条

[1] ZHOU Simiao, MA Fujun, XU Mingchun, Et al., Optimal loss distribution control strategy based on a T-type three-level converter, Power System Protection and Control, 51, 24, pp. 66-76, (2023)
[2] HOSSEINKHANI V, SARVI M., A new five-level inverter with reduced leakage current for photovoltaic system applications, Protection and Control of Modern Power Systems, 7, 2, pp. 287-299, (2022)
[3] BRUCKNER T, BERNET S., Loss balancing in three-level voltage source inverters applying active NPC switches, IEEE 32nd Annual Power Electronics Specialists Conference, pp. 1135-1140, (2001)
[4] WOLDEGIORGIS D, MANTOOTH H A., Precise electrothermal power loss model of a three-level ANPC inverter with hybrid Si/SiC switches, Chinese Journal of Electrical Engineering, 8, 3, pp. 76-89, (2022)
[5] WANG Chao, HE Yingjie, SONG Zhishun, Et al., Unified theory between the space vector and the triangular carrier-based PWM strategies in active neutral-point-clamped multilevel inverters, Transactions of China Electrotechnical Society, 32, 14, pp. 106-115, (2017)
[6] LI J, HUANG A Q, LIANG Z, Et al., Analysis and design of active NPC (ANPC) inverters for fault-tolerant operation of high-power electrical drives, IEEE Transactions on Power Electronics, 27, 2, pp. 519-533, (2012)
[7] CHEN Guo, GONG Chunyang, ZHU Lihua, Et al., Leakage current suppression method of a three-level neutral point clamp photovoltaic inverter based on I-DPWM, Power System Protection and Control, 51, 11, pp. 119-130, (2023)
[8] YUE Zhou, LIU Xiaodi, YAO Shaohua, Et al., A single supply boost six-level inverter based on a switched-capacitor, Power System Protection and Control, 50, 22, pp. 119-130, (2022)
[9] WEI Wei, GAO Zhan, ZHAO Mutian, Et al., Research on optimal fault-tolerant technique for three-level active-neutral-point-clamped inverter based on switching modulation wave, Transactions of China Electrotechnical Society, 37, 15, pp. 3818-3833, (2022)
[10] LI Jiangwei, SHI Ruicai, WANG Yu, Et al., Open-circuit fault diagnosis of a voltage-source inverter in a UPS system, Power System Protection and Control, 48, 23, pp. 148-153, (2020)

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