Research Article Open Access

New Control Technique Applied in Dynamic Voltage Restorer for Voltage Sag Mitigation

Rosli Omar1, Nasrudin Abd Rahim2 and Marizan Sulaiman1
  • 1 ,
  • 2 , Afganistan
American Journal of Engineering and Applied Sciences
Volume 3 No. 1, 2010, 42-48

DOI: https://doi.org/10.3844/ajeassp.2010.42.48

Submitted On: 3 March 2009 Published On: 31 March 2010

How to Cite: Omar, R., Rahim, N. A. & Sulaiman, M. (2010). New Control Technique Applied in Dynamic Voltage Restorer for Voltage Sag Mitigation. American Journal of Engineering and Applied Sciences, 3(1), 42-48. https://doi.org/10.3844/ajeassp.2010.42.48

Abstract

The Dynamic Voltage Restorer (DVR) was a power electronics device that was able to compensate voltage sags on critical loads dynamically. The DVR consists of VSC, injection transformers, passive filters and energy storage (lead acid battery). By injecting an appropriate voltage, the DVR restores a voltage waveform and ensures constant load voltage. There were so many types of the control techniques being used in DVR for mitigating voltage sags. The efficiency of the DVR depends on the efficiency of the control technique involved in switching the inverter. Problem statement: Simulation and experimental investigation toward new algorithms development based on SVPWM. Understanding the nature of DVR and performance comparisons between the various controller technologies available. The proposed controller using space vector modulation techniques obtain higher amplitude modulation indexes if compared with conventional SPWM techniques. Moreover, space vector modulation techniques can be easily implemented using digital processors. Space vector PWM can produce about 15% higher output voltage than standard Sinusoidal PWM. Approach: The purpose of this research was to study the implementation of SVPWM in DVR. The proposed control algorithm was investigated through computer simulation by using PSCAD/EMTDC software. Results: From simulation and experimental results showed the effectiveness and efficiency of the proposed controller based on SVPWM in mitigating voltage sags in low voltage distribution systems. It was concluded that its controller also works well both in balance and unbalance conditions of voltages. Conclusion/Recommendations: The simulation and experimental results of a DVR using PSCAD/EMTDC software based on SVPWM technique showed clearly the performance of the DVR in mitigating voltage sags. The DVR operates without any difficulties to inject the appropriate voltage component to correct rapidly any anomaly in the supply voltage to keep the load voltage balanced and constant at the nominal value.

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Keywords

  • Voltage source converter
  • voltage sag
  • dynamic voltage restore
  • space vector pulse width modulation