A Flexible Nonorthogonal-Reference-Frame-Based SVPWM Framework for Multilevel Inverters

摘要

A generalized SVPWM framework is proposed based on the convenient definition of three nonorthogonal static reference frames, alternative to the αβ -frame. The definition of these reference frames is exploited in order to get appropriate switching sequences and duty cycles taking into account the redundancy property of constructive vectors. The redundancy property is transparent to the algorithm, given that the proposed method takes advantage of it by following a straightforward algebraic procedure, without postprocessing stages or lookup tables. Furthermore, according to the number of levels and the region of the control space, a detailed analysis on the viability of time averaged common-mode voltage (CMV) elimination, is given. If it is viable, the algorithm achieves zero time-averaged CMV by selecting appropriate switching sequences and duty cycles. The method is based on very simple, low-dimensional, algebraic matrix computations, which make it flexible for implementation. Every detail on the algorithm and its theoretical base is carefully provided in the manuscript. Both, the proposed strategy that optimally provides switching sequences eliminating CMV, and its viability analysis, are applicable to other types of modulation approaches based on orthogonal or nonorthogonal reference frames. A test is proposed on a real-time emulated five-level cascaded H-bridge topology.