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级联多电平逆变器故障综合分析与诊断技术

Comprehensive analysis of faults and diagnosis techniques in cascaded multi-level inverters.

作者信息

Gatla Ranjith Kumar, Kumar Devineni Gireesh, Shashavali Palthur, Dsnm Rao, Kotb Hossam, Alkuhayli Abdulaziz, Ghadi Yazeed Yasin, Mbasso Wulfran Fendzi

机构信息

Department of Electrical & Electronics Engineering, Institute of Aeronautical Engineering, Dundigal, Telangana, 500043, India.

Department of Electrical & Electronics Engineering, B V Raju Institute of Technology, Narsapur, Telangana, 502313, India.

出版信息

Heliyon. 2024 Oct 28;10(21):e39901. doi: 10.1016/j.heliyon.2024.e39901. eCollection 2024 Nov 15.

DOI:10.1016/j.heliyon.2024.e39901
PMID:39553605
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11564957/
Abstract

Reliability is a crucial factor to consider for multi-level inverters (MLIs) used in industrial applications. With the increasing number of power semiconductor devices, the potential for defects to significantly degrade the overall system is heightened. A highly effective fault-detection technique is required to minimize the impact of faults. This paper provides a comprehensive overview of the fundamental principles of multi-level inverters and the various sorts of faults that can occur in multi-level inverters. This study provides a comprehensive analysis of five-level cascaded H-bridge multilevel inverters (MLIs) under both normal and defective conditions. The paper outlines a fault-detection method that utilizes total harmonic distortion and a normalized output voltage factor. In addition, the paper discusses a fault-isolation strategy that relies on reducing amplitude modulation. This method leads to the development of a fault-tolerant inverter. The utilization of level-shifted pulse-width modulation (LSPWM) technology is employed for the purpose of switching operations. LSPWM is the most appropriate technique for MLIs that require a low amount of computational resources. The fault-diagnosis approach given is suitable for MLI-based drives, grid-connected operations, and other applications. This paper presents a comprehensive examination of the 5L-CMLI (5-Level Cascaded Multi-Level Inverter) under various fault scenarios in CMLI. Subsequently, various fault diagnosis approaches will be examined, including their advantages and disadvantages. The paper discusses several defects that can occur in the Insulated Gate Bipolar Transistor (IGBT) of a Current Mode Logic Inverter (CMLI), and also presents a design for a reliable fault diagnosis system. Furthermore, this analysis examines several fault detection strategies in CMLI, categorized according to open-loop and closed-loop dynamic systems fault classifications.

摘要

可靠性是工业应用中使用的多电平逆变器(MLI)需要考虑的关键因素。随着功率半导体器件数量的增加,缺陷显著降低整个系统性能的可能性也随之增加。需要一种高效的故障检测技术来最小化故障的影响。本文全面概述了多电平逆变器的基本原理以及多电平逆变器中可能出现的各种故障。本研究对五电平级联H桥多电平逆变器(MLI)在正常和故障条件下进行了全面分析。本文概述了一种利用总谐波失真和归一化输出电压因子的故障检测方法。此外,本文还讨论了一种基于降低幅度调制的故障隔离策略。该方法促成了容错逆变器的开发。采用电平移动脉宽调制(LSPWM)技术进行开关操作。LSPWM是适用于需要少量计算资源的MLI的最合适技术。给出的故障诊断方法适用于基于MLI的驱动器、并网运行及其他应用。本文对级联型多电平逆变器(CMLI)各种故障情况下的五电平级联多电平逆变器(5L - CMLI)进行了全面研究。随后,将研究各种故障诊断方法,包括它们的优缺点。本文讨论了电流模式逻辑逆变器(CMLI)的绝缘栅双极晶体管(IGBT)中可能出现的几种缺陷,并提出了一种可靠故障诊断系统的设计。此外,该分析研究了CMLI中的几种故障检测策略,并根据开环和闭环动态系统故障分类进行了归类。

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