Authors: H. Abaali, M. T. Lamchich, M. Raoufi

Abstract:

There are a variety of reference current identification methods, for the shunt active power filter (SAPF), such as the instantaneous active and reactive power, the instantaneous active and reactive current and the synchronous detection method are evaluated and compared under ideal, non sinusoidal and unbalanced voltage conditions. The SAPF performances, for the investigated identification methods, are tested for a non linear load. The simulation results, using Matlab Power System Blockset Toolbox from a complete structure, are presented and discussed.

Keywords: Shunt active power filter, Current perturbation, Non sinusoidal and unbalanced voltage conditions.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1097495

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2499

References:

[1] B. Singh. K. Al-Haddad. A. Chandra. “A review of active filters for power quality improvement” In: IEEE Transactions On Industrial Electronics. Vol. 46. NO. 5. October 1999. p. 960-971.
[2] C. Brandao. J. Antonio. M. Lima: Edison Roberto Cabral da Silva “A revision of the state of the art in active filters” In: 5th Power Electronics Conferences. 19-23. September. Brazil 1999. p 857-862.
[3] H. Abaali. M. T. Lamchich and M. Raoufi “Shunt Power Active Filter Control under Non Ideal Voltage Conditions” World Academy of Science, Engineering and Technology Vol. 2, No. 10, pp. 1086-1091 2008
[4] H. Abaali. M. T. Lamchich and M. Raoufi “The Three phase Shunt Active Filters for the Harmonics Compensation Under Distorted and Unbalanced Mains Voltage Conditions” IEEE-ICIT’04 International Conference on Industrial Technology December 8-10, Hammamet Tunisia, 2004.
[5] E. H. Watanabe. M. Arades. H. Akagi. “The pq Theory for Active Filter Control: Some Problems and Solutions” In: 14th Conferences of Automatic, Natal – RN. 2 a 5 September, Brazil, 2002, p. 1078-1083.
[6] H. Akagi. Y. Kanazawa. A. Nabae. “Instantaneous Reactive Power Compensators Comprising Switching Devices without Energy Storage Components” In: IEEE Transactions on Industry Applications, Vol. IA- 20, NO. 3, May/June 1984, p. 625-630.
[7] Vedat M. Karslı, Mehmet Tümay and Berrin Süslüoğlu, “An Evaluation of Time Domain Techniques for Compensating Current of Shunt Active Power Filters” International Conference on Electrical and Electronics Engineering Bursa, Turkey, Dec. 2003.
[8] H. –L. Jou “Performance Comparison of the three-phase Active Power Filter Algorithm” IEE Proc.Gen. Trans. Distrib, vol. 142, no.6, 1995.
[9] L. Dixon “Average current mode control of switching power supplies” Unitrode Switching Regulated Power Design Seminar Manual, SEM- 700, 1990.
[10] M. Raoufi and M. T. Lamchich “Average Current Mode Control of a Voltage Source Inverter Connected to the Grid: Application to Different Filter Cells” Journal of Electrical Engineering, Vol 55, 03-04 2004, 77- 82.
[11] M. Bojrup “Advanced Control of Active Filters in a Battery Charger Application” Licentiate thesis. Lund Institute of Technology, Sweden, 1999.
[12] A. Allali, “Compensateurs Actifs des Réseaux Electriques Basse Tension”. Thesis University Louis Pasteur Strasbourg. Doctoral School Sciences for Engineer. September 12. 2002.
[13] M. Aredes “Active Power Line Conditioners” From the specialist area 12 electro-technology of the technical University. Thesis. Berlin 1996 D83.