Shunt Power Active Filter Control under NonIdeal Voltages Conditions
In this paper, we propose the Modified Synchronous Detection (MSD) Method for determining the reference compensating currents of the shunt active power filter under non sinusoidal voltages conditions. For controlling the inverter switching we used the PI regulator. The numerical simulation results, using Power System Blockset Toolbox PSB of Matlab, from a complete structure, are presented and discussed.
[1] H. -L. Jou, "Performance comparison of the three-phase active power
filter algorithm," IEE Proc.Gen. Trans. Distrib., Vol. 142, No.6, 1995.
[2] A. Allali, "Contribution ├á l-etude des compensateurs actifs des réseaux
électriques basse tension," Thèse Université Louis Pasteur Strasbourg,
Ecole Doctorale Sciences pour l-Ingénieur, 12 Sept. 2002.
[3] B. Singh. K. Al-Haddad and A. Chandra, "A review of active filters for
power quality improvement," In: IEEE Transactions on Industrial
Electronics. Vol. 46. No. 5, pp. 960-971, October 1999.
[4] C. Brandao, J. Antonio and M. Lima: Edison Roberto Cabral da Silva,
"A revision of the state of the art in active filters," In: 5th Power
Electronics Conferences, pp 857-862, Brazil, 19-23.Sept. 1999.
[5] M. Aredes, "Active power line conditioners;" doctor engineer approved
thesis, Berlin 1996 D83.
[6] Vedat M. Karsl─▒, Mehmet T├╝may and Berrin S├╝sl├╝o─ƒlu, "An evaluation
of time domain techniques for compensating currents of shunt active
power filters," International Conference on Electrical and Electronics
Engineering Bursa, Turkey, Dec. 2003.
[7] H. Abaali, M. T. Lamchich and M. Raoufi, "Modified synchronous
detection method for shunt active filter reference currents identification
under non sinusoidal voltages conditions," Institut des Nouvelles
Technologies de l-Information et de la Communication 1 Algésiras -
Tanger, 14 - 17 Dec. 2004.
[8] S.-Y. Lee, Y.-M. Chae, J.-S. Cho, G.-H Choe and H.-S. Mok E D.-H.
Jang, "A new control strategy for instantaneous voltage compensator
using 3-phase pwm inverter," IEEE, PESC 98, Fukuoka, Japão, May
1998, pp. 248-254.
[9] J. Nastran, R. Cajhen, M. Seliger and P. Jereb, "Active power filter for
nonlinear ac loads," IEEE - Trans. on Power Electronics, Vol. 9, No. 1,
pp. 92-96, Jan. 1994.
[10] J.W. Dixon, L. Moran and R.R. Wallace, "A three-phase active power
filter operating with fixed switching frequency for reactive power and
current harmonic compensation," IEEE Trans. on Industrial Electronics,
Vol.-42, No 4, pp. 402-408, Aug. 1995.
[11] P. Verdelho and G. D. Marques, "An active power filter and unbalanced
current compensator control circuit," VI European Conference on Power
Electronics and Applications, pp. 1.929-1.934, Sevilla, Espain, Sept.
1995.
[12] A. Chaghi, A. Guettafi and A. Benououdijit, "Shunt active filter
compensating current harmonics under disturbed voltage network,"
Journal of Electrical Engineering, No. 1, Vol. 4, 2004.
[13] S. D. Round and D. M. E. Ingram "An evaluation of techniques for
determining active filter compensating currents in unbalanced systems,"
Proc. European Conf. on Power Electronics and Applications, vol. 4, pp.
767-772, Trondheim, 1997.
[1] H. -L. Jou, "Performance comparison of the three-phase active power
filter algorithm," IEE Proc.Gen. Trans. Distrib., Vol. 142, No.6, 1995.
[2] A. Allali, "Contribution ├á l-etude des compensateurs actifs des réseaux
électriques basse tension," Thèse Université Louis Pasteur Strasbourg,
Ecole Doctorale Sciences pour l-Ingénieur, 12 Sept. 2002.
[3] B. Singh. K. Al-Haddad and A. Chandra, "A review of active filters for
power quality improvement," In: IEEE Transactions on Industrial
Electronics. Vol. 46. No. 5, pp. 960-971, October 1999.
[4] C. Brandao, J. Antonio and M. Lima: Edison Roberto Cabral da Silva,
"A revision of the state of the art in active filters," In: 5th Power
Electronics Conferences, pp 857-862, Brazil, 19-23.Sept. 1999.
[5] M. Aredes, "Active power line conditioners;" doctor engineer approved
thesis, Berlin 1996 D83.
[6] Vedat M. Karsl─▒, Mehmet T├╝may and Berrin S├╝sl├╝o─ƒlu, "An evaluation
of time domain techniques for compensating currents of shunt active
power filters," International Conference on Electrical and Electronics
Engineering Bursa, Turkey, Dec. 2003.
[7] H. Abaali, M. T. Lamchich and M. Raoufi, "Modified synchronous
detection method for shunt active filter reference currents identification
under non sinusoidal voltages conditions," Institut des Nouvelles
Technologies de l-Information et de la Communication 1 Algésiras -
Tanger, 14 - 17 Dec. 2004.
[8] S.-Y. Lee, Y.-M. Chae, J.-S. Cho, G.-H Choe and H.-S. Mok E D.-H.
Jang, "A new control strategy for instantaneous voltage compensator
using 3-phase pwm inverter," IEEE, PESC 98, Fukuoka, Japão, May
1998, pp. 248-254.
[9] J. Nastran, R. Cajhen, M. Seliger and P. Jereb, "Active power filter for
nonlinear ac loads," IEEE - Trans. on Power Electronics, Vol. 9, No. 1,
pp. 92-96, Jan. 1994.
[10] J.W. Dixon, L. Moran and R.R. Wallace, "A three-phase active power
filter operating with fixed switching frequency for reactive power and
current harmonic compensation," IEEE Trans. on Industrial Electronics,
Vol.-42, No 4, pp. 402-408, Aug. 1995.
[11] P. Verdelho and G. D. Marques, "An active power filter and unbalanced
current compensator control circuit," VI European Conference on Power
Electronics and Applications, pp. 1.929-1.934, Sevilla, Espain, Sept.
1995.
[12] A. Chaghi, A. Guettafi and A. Benououdijit, "Shunt active filter
compensating current harmonics under disturbed voltage network,"
Journal of Electrical Engineering, No. 1, Vol. 4, 2004.
[13] S. D. Round and D. M. E. Ingram "An evaluation of techniques for
determining active filter compensating currents in unbalanced systems,"
Proc. European Conf. on Power Electronics and Applications, vol. 4, pp.
767-772, Trondheim, 1997.
@article{"International Journal of Electrical, Electronic and Communication Sciences:53804", author = "H. Abaali and M. T. Lamchich and M. Raoufi", title = "Shunt Power Active Filter Control under NonIdeal Voltages Conditions", abstract = "In this paper, we propose the Modified Synchronous Detection (MSD) Method for determining the reference compensating currents of the shunt active power filter under non sinusoidal voltages conditions. For controlling the inverter switching we used the PI regulator. The numerical simulation results, using Power System Blockset Toolbox PSB of Matlab, from a complete structure, are presented and discussed.
", keywords = "Distorted, harmonic, Modified Synchronous Detection Method, PI regulator, Shunt Active Power Filter,unbalanced.", volume = "2", number = "10", pages = "2229-6", }
