This paper presents a novel design of a dynamic voltage restorer (DVR) which mitigate voltage sags, swell and phase jumps by injecting minimum active power in system and provides the constant power at load side without any disturbance. The design of this compensating device presented here includes the combination of P WM-based control scheme, d q 0 transformation and PI controller in control part of its circuitry, which enables it to minimize the power rating and to response promptly to voltage quality problems faced by today’s electrical power industries.
immense knowledge of power electronics was applied in order to design and model of a complete test system solely for analyzing and studying the response of this efficient DVR. In order to realize this control scheme of DVR MAT LAB/SIM U LINK atmosphere was used. The results of proposed design of DVR’s control scheme are compared with the results of existing classical DVR which clearly demonstrate the successful compensation of voltage quality problems by injecting minimum active power.
Fig.1. Block Diagram of DVR
EXPECTED SIMULATION RESULTS:
Fig.2.Source Voltage with Sag of 0.5 p.u.
Fig.3.Load Voltage after Compensation through proposed DVR
Fig.4. Load Voltage after Compensation through classical DVR
Fig.5. Voltage injected by proposed DVR as response of Sag
Fig.6.Source Voltage with Swell of 1.5 p.u.
Fig.7. Load Voltage after compensation through proposed DVR
Fig.8. Load Voltage after Compensation through classical DVR
Fig.9. Voltage injected by DVR as response of Swell
Fig.10. .Load Voltage after Compensation of Phase jump
Fig.11. d q 0 form of difference voltage obtained by proposed DVR
Fig.12. d q 0 form of difference voltage obtained by classical DVR
As the world is moving towards modernization, the most essential need that it has is of an efficient and reliable power of excellent quality. Nowadays, more and more sophisticated devices are being introduced, and their sensitivity is dependent upon the quality of input power. Because even a slight disturbance in power quality, such as Voltage sags, voltage swells, and harmonics, which lasts in tens of milliseconds, can result in a huge loss because of the failure of end use equipment s. For catering such voltage quality problems an efficient DVR is proposed in this paper with the capability of mitigating voltage sags, swells, and phase jumps by injecting minimum active power hence decreasing the VA rating of DVR.
 K u m a r, R. A nil, G. Siva K u mar, B. K a l y an K u mar, and Ma he sh K. Mi s h R a. “Compensation of voltage sags and harmonics with phase jumps through DVR with minimum VA rating using Particle Swarm Optimization.” In Nature & Biologically Inspired Computing, 2009. NaBIC 2009. World Congress on, pp. 1361-1366. IEEE, 2009.
 Song song, Chen, Wang Jian wei, Ga o Wei, and Hu Xiaoguang. “Research and design of dynamic voltage restorer.” In Industrial Informatics (INDIN), 2012 10th IEEE International Conference on, pp. 408-412. IEEE, 2012.
 A. Bendre, D. Divan, W. Kranz, and W. E. Brumsickle, “Are Voltage Sags Destroying Equipment?,” IEEE Industry Applications Magazine, vol. 12, pp. 12-21, July-August 2006.