Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis
Enhancing compensating capability is essential in a voltage-sag compensator. It involves two main aspects, first, sag detection technique and second, voltage sag compensator. Many detection techniques have been introduced to measure and to detect voltage sag, such as RMSValue Evaluation and Peak-Val...
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my.uniten.dspace-304862023-12-29T15:48:23Z Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis Mansor M. Rahim N.A. 6701749037 35580738100 Peak detection RMS detection Voltage sag Voltage sag compensator Voltage sag detection Enhancing compensating capability is essential in a voltage-sag compensator. It involves two main aspects, first, sag detection technique and second, voltage sag compensator. Many detection techniques have been introduced to measure and to detect voltage sag, such as RMSValue Evaluation and Peak-Value Evaluation. Unfortunately, most of the techniques require a delay for sag to be detected then compensated, whereas immediate sag detection is vital to improvement of transient performance. Presented is a three-phase PWM-switched autotransformer voltage-sag compensator that is based on AC-AC converter and that uses the proposed three phase controller based on Phase Angle Analysis as the detection technique. The significant advantage of this detection technique is the detection time. It is capable of detecting and compensating voltage sag the moment sag occurs without delay. Its effectiveness and capability were verified via MATLAB/Simulink simulation. � 2005 - 2011 JATIT & LLS. All rights reserved. Final 2023-12-29T07:48:23Z 2023-12-29T07:48:23Z 2011 Article 2-s2.0-80052534627 https://www.scopus.com/inward/record.uri?eid=2-s2.0-80052534627&partnerID=40&md5=63725a60d810f1c95881202898ea619e https://irepository.uniten.edu.my/handle/123456789/30486 30 2 102 108 Asian Research Publishing Network (ARPN) Scopus |
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Peak detection RMS detection Voltage sag Voltage sag compensator Voltage sag detection Mansor M. Rahim N.A. Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis |
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Enhancing compensating capability is essential in a voltage-sag compensator. It involves two main aspects, first, sag detection technique and second, voltage sag compensator. Many detection techniques have been introduced to measure and to detect voltage sag, such as RMSValue Evaluation and Peak-Value Evaluation. Unfortunately, most of the techniques require a delay for sag to be detected then compensated, whereas immediate sag detection is vital to improvement of transient performance. Presented is a three-phase PWM-switched autotransformer voltage-sag compensator that is based on AC-AC converter and that uses the proposed three phase controller based on Phase Angle Analysis as the detection technique. The significant advantage of this detection technique is the detection time. It is capable of detecting and compensating voltage sag the moment sag occurs without delay. Its effectiveness and capability were verified via MATLAB/Simulink simulation. � 2005 - 2011 JATIT & LLS. All rights reserved. |
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6701749037 |
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6701749037 Mansor M. Rahim N.A. |
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Mansor M. Rahim N.A. |
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Mansor M. |
title |
Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis |
title_short |
Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis |
title_full |
Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis |
title_fullStr |
Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis |
title_full_unstemmed |
Three phase control for PWM-switchedautotransformer voltage-SAG compensator based on phase angle analysis |
title_sort |
three phase control for pwm-switchedautotransformer voltage-sag compensator based on phase angle analysis |
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Asian Research Publishing Network (ARPN) |
publishDate |
2023 |
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1806428381494902784 |
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13.222552 |