Study of control methods for three-level, five-level and multilevel inverters

Abstract

With the rapid development of power electronics technology, multilevel inverters have gained wide attention in high-voltage and high-power applications due to their advantages of high output waveform quality and low switching loss. The article firstly introduces the basic topologies and control strategies of three-level inverters, including midpoint clamp type, flying capacitor type and H-bridge cascade type, etc. It focuses on analyzing the principles and characteristics of the control methods, such as space-vector pulse-width modulation and selective harmonic elimination. The research progress of five-level inverters is summarized, and the advantages and disadvantages of different topologies and their control techniques, such as modular multilevel and hybrid cascade types, are discussed. Subsequently, the article outlines the development trend of higher level number inverters and discusses the key technical issues facing multilevel inverters, such as voltage balance control, fault diagnosis and fault tolerance. The future research directions of multilevel inverter control methods are envisioned, including the application of intelligent control algorithms and the development of high-efficiency and high-reliability control strategies. This review provides a theoretical foundation and reference for the in-depth research of multilevel inverter control technology.