DocumentCode
1398953
Title
Generalized Duty-Ratio-Based Pulsewidth Modulation Technique for a Three-to-
Phase Matrix Converter
Author
Ahmed, SK Moin ; Iqbal, Atif ; Abu-Rub, Haitham
Author_Institution
Texas A&M Univ. at Qatar, Doha, Qatar
Volume
58
Issue
9
fYear
2011
Firstpage
3925
Lastpage
3937
Abstract
This paper presents a novel topology for a direct ac-ac power converter, called as the “three-to- k” phase matrix converter. The input to the proposed matrix converter configuration is a three-phase fixed voltage and a fixed frequency supply from the grid. The output is a variable voltage and variable frequency ac supply of any number of phases (k phase). However, the discussion is limited here for a k that is equal to odd number of phases. As an example, a “three-to-five” phase matrix converter is utilized for discussion and analysis. This paper also proposes two pulsewidth modulation (PWM) control techniques for the general topology of the “three-to- k” phase matrix converter. This is based on the so-called direct duty ratio PWM (DPWM). In one presented technique, the output voltage is limited to one half of the input voltage. For the other proposed scheme, the output voltage is enhanced to 78.86% of the input voltage. The proposed control algorithm is validated using simulation and an experimental approach.
Keywords
AC-AC power convertors; PWM power convertors; matrix convertors; direct ac-ac power converter; direct duty ratio PWM; fixed frequency supply; generalized duty-ratio-based pulsewidth modulation technique; matrix converter configuration; pulsewidth modulation control techniques; three-phase fixed voltage; three-to-k phase matrix converter; variable frequency ac supply; variable voltage; Harmonic analysis; Inverters; Matrix converters; Pulse width modulation; Topology; AC–AC power conversion; direct duty ratio; multiphase; pulsewidth modulation (PWM);
fLanguage
English
Journal_Title
Industrial Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0278-0046
Type
jour
DOI
10.1109/TIE.2010.2098373
Filename
5661834
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