A fast and generalized space vector PWM scheme and its application in optimal performance investigation for multilevel inverters

Abstract

This paper introduces and develops a fast and generalized space vector pulse width modulation (SVPWM) scheme and applies the SVPWM scheme to investigate the optimal performance of multilevel inverters. Due to the development in this paper, the introduced SVPWM scheme is more efficient when the commanded reference vector is in low-modulation regions. The SVPWM scheme generates all the available switching states and switching sequences based on two simple and general mappings, and calculates the duty cycles simply as if for a two-level SVPWM, thus independent of the level number of the inverter and providing significant flexibility for analyzing and designing multilevel inverters. Because the switching states, duty cycles, and switching sequences are all obtained by simple calculation in the SVPWM scheme, no lookup table is needed and the scheme is computationally fast. In this paper, the performance of multilevel inverters is quantitatively analyzed according to different influencing factors, such as switching frequency, level number of the inverter, modulation index, and switching pattern. Simulation results and general conclusions are given.