Voltage quality improvement using DVR

Benachaiba, Ch.; Ferdi, B.

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Tytuł artykułu

Voltage quality improvement using DVR

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Benachaiba Ch. , Ferdi B.

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Abstrakty

The problem of voltage sags and Swells and its severe impact on sensitive loads is well known. To solve this problem, custom power devices are used. One of those devices is the Dynamic Voltage Restorer (DVR), which is the most efficient and effective modern custom power device used in power distribution networks. Its appeal includes lower cost, smaller size, and its fast dynamic response to the disturbance. This paper describes DVR principles and voltage restoration methods at the point of common coupling (PCC ). Simulation results are presented to illustrate and understand the performances of DVR in load voltage compensation.

Słowa kluczowe

Dynamic Voltage Restorer (DVR) voltage sags (dips) voltage swells custom power power quality

Wydawca

AGH University of Science and Technology
Lodz University of Technology

Czasopismo

Electrical Power Quality and Utilisation. Journal

Rocznik

2008

Tom

Vol. 14, iss. 1

Strony

39--46

Opis fizyczny

Bibliogr. 35 poz.

Twórcy

autor

Benachaiba Ch.

autor

Ferdi B.

Bechar University Center BP 417 Bechar 08000, Algeria, chellali@netscape.net

Bibliografia

1. H i n g o r a n i N.G.: Introducing Custom Power in IEEE Spectrum. 32p, pp. 4l–48, 1995.
2. Sankaran C.: Power Quality. CRC Press, 2001.
3. IEEE Std. 1159–1995: Recommended Practice for Monitoring Electric Power Quality.
4. Boonchiam P. and Mithulananthan N.: Understanding of Dynamic Voltage Restorers through MATLAB Simulation. Thammasat Int. J. Sc. Tech., Vol. 11, No. 3, July-Sept 2006.
5. Youssef K.: “Industrial power quality problems Electricity Distribution. IEE Conf. Pub1 No. 482,Vol: 2, 18–21 June 2001 Pages: 5 pp. vo1.2.
6. Ghoshand Ledwich G.: Power Quality Enhancement Using Custom Power Devices. Kluwer Academic Publishers, 2002.
7. Chang S., Ho Y.S., and Loh P.C.: Voltage quality enhancement with power electronics based devices. In IEEE Power Engineering Society Winter Meeting, 2000, pp. 2937–2942.
8. Kim H.: Minimal Energy Control for a Dynamic Voltage Restorer. In Proceedings of the Power Conversion Conference, Osaka, Japan, 2002, pp. 428–433.
9. McHattie R.: Dynamic Voltage Restorer the Customers’s Perspective. In IEE Colloquium on Dynamic Voltage Restorer—Replacing Those Missing Cycles, 1998, pp. 1/1–1/5.
10. Chen S., Joos G., Lopes L., and Guo W.: A nonlinear control method of dynamic voltage restorers. In 2002 IEEE 33rd Annual Power Electronics Specialists Conference, 2002, pp. 88–93.
11. Buxton R.: Protection from voltage dips with the dynamic voltage restorer. In IEE Half Day Colloquium on Dynamic Voltage Restorers —Replacing Those Missing Cycles, 1998, pp. 3/1–3/6.
12. Li B.H., Choi S.S., and Vilathgamuwa D.M.: Design considerations on the line-side filter used in the dynamic voltage restorer. IEE Proceedings — Generation, Transmission, and Distribution, vol. 148, pp. 1–7, Jan. 2001.
13. Chan K.: Technical and Performance Aspects of a Dynamic Voltage Restorer. In IEE Half Day Colloquium on Dynamic Voltage Restorers —Replacing Those Missing Cycles, 1998, pp. 5/1–525.
14. Sng E.K.K., Choi S.S., and Vilathgamuwa D.M.: Analysis of Series Compensation and DC-Link Voltage Controls of a Transformerless Self- Charging Dynamic Voltage Restorer. IEEE Transactions on Power Delivery, vol. 19, pp. 1511–1518, July 2004.
15. Kularatna N.: Power Electronics Design Handbook: Low-Power Components and Applications. Boston: Newnes, 1998.
16. Hyosung Kim, Jang-Hwan Kim, Seung-KiSul: A design consideration of output filters for dynamic voltage restorers. Power Electronics Specialists Conference, 2004. PESC 04.2004 IEEE 35th Annual, Volume 6, 20-25 June 2004 Page(s):4268–4272 Vo1.6
17. Bollen M.H.J.: Understanding Power Quality Problems. New York: IEEE Press, 2000.
18. Nielsen J.G., Newman M., Nielsen H., and Blaabjerg F.: Control and testing of a dynamic voltage restorer (DVR) at medium voltage level. Power Electronics, IEEE Transactions on, Volume: 19, Issue: 3, May 2004, pp. 806–813.
19. Gole A.M., Sood V.K.: A Static compensator mode1 for use with electromagnetic transients simulation program. IEEE Transactions on Power Delivery, Vol 5, No 3, July 1990, pp 1398–1407.
20. Lai J.S., and Peng F.Z. : Multilevel converters—A new breed of power converters. In Conf. Rec. IEEE-IAS Annu. Meeting, 1995, pp. 2348–2356.
21. Hongyang Wu, and Xiangning He: Research on PWM control of a cascade multilevel converter. Power Electronics and Motion Control Conference”, 2000. Proceedings. PIEMC 2000. The Third International, Volume: 3, 15–1 8 Aug. 2000 Pages: 1099–1103, vo1. 3.
22. Fang M., Gardiner A.I., MacDougall A., and Mathieson G.A.: A novel series dynamic voltage restorer for distribution systems. In 1998 International Conference on Power System Technology, 1998, pp. 38–42.
23. Rashid M.H.: Power Electronics Handbook. San Diego: Academic Press, 2001.
24. Bose B.K.: Power Electronics and AC Drives. Englewood Cliffs: Prentice-Hall, 1986.
25. Arnold R.: Solutions to the power quality problem. Power Engineering Journal, vol. 15, pp. 65–73, April 2001.
26. Mohan N., Undeland T.M., and Robbins W.P.: Power Electronics: Converters, Applications, and Design. New York: John Wiley & Sons, 1989.
27. Wunderlin T., Amhof O., Dahler P., and Guning H.: Power supply quality improvement with a dynamic voltage restorer (DVR). In 1998 International Conference on Energy Management and Power Delivery, 1998, pp. 518–525.
28. Fitzer C., Barnes M., and Green P.: Voltage Sag Detection Technique for a Dynamic Voltage Restorer. IEEE Transactions on Industry Applications, vol. 40, pp. 203–212, Jan. – Feb. 2004.
29. Saleh S.A. and Rahman M.A.: Wavelet-based dynamic voltage restorer for power quality improvement. In 2004 IEEE 35th Annual Power Electronics Specialists Conference, 2004, pp. 3152–3156.
30. E-Otadui, Viscarret U., Bacha S., Caballero M., and Reyero R.: Evaluation of different strategies for series voltage sag cornpensation. In Proc. 2002 IEEE-PESC, vol. 4, pp. 1797–1802.
31. Chung Y., ParkS. -Y., MoonS. -I.,and HurS. -I. : The control and analysis of zero sequence components in DVR system. In Proc. 2001 IEEE-PES Winter Meeting, Vol. 3, pp. 1021–1026.
32. Haddad K. and Joos G.: Distribution system voltage regulation under fault conditions using static series regulators. In Proc. 1997 IEEE-IAS, Vol. 2, pp. 1383–1389.
33. Joos Campos G., Ziogas P, and Lindasy J.: Analysis and design of a series voltage compensator for three-phase unbalanced sources. IEEE Trans. on Industrial Electronics, Vol. 39, No. 2, pp. 159–167, April 1992.
34. Tounsi R, Michalak P., Pouliquen H., and Foch H.: Series compensator voltage dips: control strategy. In Proc. 1997 EPE Con., pp. 4.929–4.934.
35. Sannino and Svensson J.: A series-connected voltage source converter for voltage sag rnitigation using vector control and a filter compensation algorithm. In Proc. 2000 IEEE-IAS, Vol. 4, pp. 2476–2481.

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