Design and simulation of a resonant full-bridge multicell power inverter for high-voltage applications

Abstract The design and simulation of a Full-Bridge Flying-Capacitor Multilevel-Inverter (FB-FCMI) for high-voltage applications are presented. The power inverter topology consists of two legs: each one with three commutation cells, six switches and two flying-capacitors. The proposed control system provides twelve square signals for all switches that compose the inverter, which is driven at a commutation frequency f SW ≈6.66 kHz. The output frequency f 0, is equal to three times the commutation frequency. The inductor and capacitor in the resonant-circuit design is calculated based on f 0, which depends on the number of cells, N. The goal of the proposed inverter design is to demonstrate that, the output frequency increases as rate of f 0 = N∙ f SW. In order to show the effect of the increase in the number of cells, a resonant power inverter is designed and simulated, first with three and then with six switching cells, at f 0 = 20 kHz. Finally, the FB-FCMI is connected to the primary winding of the high-voltage transformer, while the secondary is coupled to a Dielectric Barrier Discharge reactor represented by its electrical model, to generate an electrical discharge in helium.

Bibliographic Details

Main Authors:	Flores-Fuentes,Allan Antonio, Pérez-Martínez,José Arturo, García-Mejía,Juan Fernando, Rossano-Díaz,Iván Osvaldo, Torres-Reyes,Carlos Eduardo
Format:	Digital revista
Language:	English
Published:	Universidad Nacional Autónoma de México, Facultad de Ingeniería 2018
Online Access:	http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1405-77432018000300245
Tags:	Add Tag No Tags, Be the first to tag this record!