DocumentCode
1483216
Title
Simple Carrier-Based PWM Technique for a Three-to-Nine-Phase Direct AC–AC Converter
Author
Ahmed, Sabah M. ; Iqbal, A. ; Abu-Rub, H. ; Rodriguez, J. ; Rojas, C.A. ; Saleh, M.
Author_Institution
Aligarh Muslim Univ., Aligarh, India
Volume
58
Issue
11
fYear
2011
Firstpage
5014
Lastpage
5023
Abstract
Multiphase (more than three phases) power electronic converters are required mainly for feeding variable-speed multiphase drive systems. This paper presents one such solution by using a direct ac-ac converter that can be used to supply a nine-phase drive system. The input is a fixed-voltage and fixed-frequency three-phase input, and the output is a variable-voltage and variable-frequency nine-phase output. A simple pulsewidth-modulation technique is developed for the proposed ac-ac converter named as a nonsquare three-to-nine-phase matrix-converter configuration. The developed modulation technique is based on the comparison of a high-frequency carrier signal with the duty ratios. Although the carrier-based scheme is widely employed for the control of back-to-back converters, it has recently been used for controlling a three-to-three-phase matrix converter. This concept is extended in this paper for controlling a three-to-nine-phase matrix converter. With the two techniques that are proposed, one outputs 0.75 of the input magnitude and the other outputs reach 0.762 of the input. This is the maximum value of the output voltage in the linear modulation range that can be achieved in this configuration of the matrix converter. The viability of the proposed control techniques is proved analytically through simulation and an experimental approach.
Keywords
AC-AC power convertors; PWM power convertors; matrix convertors; variable speed drives; carrier-based PWM technique; carrier-based scheme; linear modulation; multiphase power electronic converters; nonsquare three-to-nine-phase matrix-converter; pulsewidth-modulation technique; three-to-nine-phase direct AC-AC converter; variable-speed multiphase drive systems; Harmonic analysis; Matrix converters; Pulse width modulation; AC–AC converter; carrier-based pulsewidth modulation (PWM); matrix converter; multiphase; nine-phase;
fLanguage
English
Journal_Title
Industrial Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0278-0046
Type
jour
DOI
10.1109/TIE.2011.2134062
Filename
5740337
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