Title :
A Novel Switching Sequence Design for Five-Level NPC/H-Bridge Inverters With Improved Output Voltage Spectrum and Minimized Device Switching Frequency
Author :
Cheng, Zhongyuan ; Wu, Bin
Author_Institution :
Rockwell Autom. Canada, Cambridge
Abstract :
This paper presents a novel switching sequence design for the space-vector modulation of high-power multilevel converters. The switching sequences are optimized for the improvement of harmonic spectrum and the minimization of device switching frequency. Compared to other commonly used switching sequences, the output spectrum of the proposed design shows higher inverter equivalent switching frequency. Meanwhile, the device switching frequency is reduced by using a flexible switching pattern. The proposed switching sequence has been simulated and experimentally tested on a 5-level neutral point clamped H-bridge based inverter. The results from both simulations and experiments consistently verify the above-mentioned features.
Keywords :
bridge circuits; invertors; power conversion harmonics; switching convertors; NPC/H-bridge inverters; equivalent switching frequency; five-level inverters; flexible switching pattern; harmonic spectrum; high-power multilevel converters; minimized device switching frequency; output voltage spectrum; space-vector modulation; switching sequence design; Arm; Inverters; Power conversion harmonics; Support vector machines; Switching converters; Switching frequency; Switching loss; Testing; Topology; Voltage; Multilevel power converter; power conversion harmonics; space vector modulation (SVM); switching loss;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2007.909244
