Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters

Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters

Reducing the number of active switches is substantial for obtaining a simple, reliable, high-efficiency, and cost-effective AC/AC voltage converter. In this paper, two topologies of three-phase direct PWM AC/AC voltage converter are proposed. The first is for the buck converter and the other is for...

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Main Authors: Said A. Deraz, Haitham Z. Azazi, Mohamed S. Zaky, Mohamed K. Metwaly, Mohammed E. Dessouki
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
AC-AC voltage converters
control design
small signal analysis
stability analysis
symmetrical components
voltage stress
Online Access:https://ieeexplore.ieee.org/document/8610070/
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spelling doaj-f93b9ae9d05148e4abcab26ca8a169802021-03-29T22:02:49ZengIEEEIEEE Access2169-35362019-01-017114851150110.1109/ACCESS.2019.28925238610070Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage ConvertersSaid A. Deraz0https://orcid.org/0000-0003-0479-7283Haitham Z. Azazi1https://orcid.org/0000-0002-9429-215XMohamed S. Zaky2https://orcid.org/0000-0002-6925-459XMohamed K. Metwaly3https://orcid.org/0000-0001-6598-8652Mohammed E. Dessouki4https://orcid.org/0000-0002-7891-4844Electrical Engineering Department, Faculty of Engineering, King Abdulaziz University, Rabigh, Saudi ArabiaElectrical Engineering Department, Faculty of Engineering, Menoufia University, Shibin El Kom, EgyptElectrical Engineering Department, Faculty of Engineering, Menoufia University, Shibin El Kom, EgyptElectrical Engineering Department, Faculty of Engineering, Menoufia University, Shibin El Kom, EgyptElectrical Engineering Department, Faculty of Engineering, King Abdulaziz University, Rabigh, Saudi ArabiaReducing the number of active switches is substantial for obtaining a simple, reliable, high-efficiency, and cost-effective AC/AC voltage converter. In this paper, two topologies of three-phase direct PWM AC/AC voltage converter are proposed. The first is for the buck converter and the other is for the boost one. Each converter has no DC energy storage elements and employs only three IGBTs. The proposed converters do not use lossy snubber circuits and have not commutation problems. A simple, reliable, and cost-effective control strategy, which employs only one voltage sensor, is also proposed. Using a closed-loop voltage control technique, two complementary PWM gate signals are generated to drive the three active switches of each converter. Adjusting the duty ratio of PWM gate signals regulates the output voltage of the AC/AC converters. Operating principle and mathematical analysis of the converters are presented. Voltage stresses across active and passive semiconductor switches of the proposed converters are derived. Small signal analysis based on complex DQ transformed equivalent circuits of the converter is introduced. Voltage controller design using frequency response analysis is provided. The converters are simulated using MATLAB/SIMULINK and laboratory prototypes are implemented in real-time using DSP-DS1104 control board. The converters are tested under different operating conditions and their performances are investigated and compared. The symmetry of the output voltage/current is examined by the theory of symmetrical components. The simulation and experimental results are in a close agreement. This confirms the validity of the theoretical analysis, the effectiveness of the control strategy, and the feasibility of the proposed converters.https://ieeexplore.ieee.org/document/8610070/AC-AC voltage converterscontrol designsmall signal analysisstability analysissymmetrical componentsvoltage stress
collection DOAJ
language English
format Article
sources DOAJ
author Said A. Deraz
Haitham Z. Azazi
Mohamed S. Zaky
Mohamed K. Metwaly
Mohammed E. Dessouki
spellingShingle Said A. Deraz
Haitham Z. Azazi
Mohamed S. Zaky
Mohamed K. Metwaly
Mohammed E. Dessouki
Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters
IEEE Access
AC-AC voltage converters
control design
small signal analysis
stability analysis
symmetrical components
voltage stress
author_facet Said A. Deraz
Haitham Z. Azazi
Mohamed S. Zaky
Mohamed K. Metwaly
Mohammed E. Dessouki
author_sort Said A. Deraz
title Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters
title_short Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters
title_full Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters
title_fullStr Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters
title_full_unstemmed Performance Investigation of Three-Phase Three-Switch Direct PWM AC/AC Voltage Converters
title_sort performance investigation of three-phase three-switch direct pwm ac/ac voltage converters
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description Reducing the number of active switches is substantial for obtaining a simple, reliable, high-efficiency, and cost-effective AC/AC voltage converter. In this paper, two topologies of three-phase direct PWM AC/AC voltage converter are proposed. The first is for the buck converter and the other is for the boost one. Each converter has no DC energy storage elements and employs only three IGBTs. The proposed converters do not use lossy snubber circuits and have not commutation problems. A simple, reliable, and cost-effective control strategy, which employs only one voltage sensor, is also proposed. Using a closed-loop voltage control technique, two complementary PWM gate signals are generated to drive the three active switches of each converter. Adjusting the duty ratio of PWM gate signals regulates the output voltage of the AC/AC converters. Operating principle and mathematical analysis of the converters are presented. Voltage stresses across active and passive semiconductor switches of the proposed converters are derived. Small signal analysis based on complex DQ transformed equivalent circuits of the converter is introduced. Voltage controller design using frequency response analysis is provided. The converters are simulated using MATLAB/SIMULINK and laboratory prototypes are implemented in real-time using DSP-DS1104 control board. The converters are tested under different operating conditions and their performances are investigated and compared. The symmetry of the output voltage/current is examined by the theory of symmetrical components. The simulation and experimental results are in a close agreement. This confirms the validity of the theoretical analysis, the effectiveness of the control strategy, and the feasibility of the proposed converters.
topic AC-AC voltage converters
control design
small signal analysis
stability analysis
symmetrical components
voltage stress
url https://ieeexplore.ieee.org/document/8610070/
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AT haithamzazazi performanceinvestigationofthreephasethreeswitchdirectpwmacacvoltageconverters
AT mohamedszaky performanceinvestigationofthreephasethreeswitchdirectpwmacacvoltageconverters
AT mohamedkmetwaly performanceinvestigationofthreephasethreeswitchdirectpwmacacvoltageconverters
AT mohammededessouki performanceinvestigationofthreephasethreeswitchdirectpwmacacvoltageconverters
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