Combined control system of shunt active power filter of three phase four-wire system
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Abstract
Simple and efficient control system for shunt active filter for four-phase network was proposed. This system built on the principle of the direct calculation of the instantaneous values of the vector current three-phase power and shows how to implement it.
The model constructed with said filter control system in MatLab software environment and analyzed his work on nonlinear load unbalanced unbalanced voltage.
Reference 6, figures 4, tables 2.
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References
Akagi H., Watanable E.H., Aredes M. (2007), “Instantaneous power theory and applications to power conditioning“. Piscataway, NJ: IEEE Press., 379 p.
Peng F. Z., Lai J. S. (1996), “Generalized instantaneous reactive power theory of three-phase power systems“. IEEE Trans. Instrum. Meas., Vol. 45. No. 1. Pр. 293-297.
Salmeron P., Montano J. C., Vazquez J. R., Prieto J., Perez A. (2004), "Compensation in nonsinusoi-dal, unbalanced three-phase four-wire systems with active power-line conditioner“. IEEE Trans. on Power Delivery. Vol. 19, no. 4, pp. 1968–1974.
Reyes S., Salmeron P. (2009), "Instantaneous Reactive Power Theory: A Reference in the Nonlinear Loads Compensation“. IEEE Trans. оn Industrial Electronics. Vol. 56, no 6, pp. 2015–2022.
Pat. 84949 UA, HO2P 9/00. "The method of parallel active filter control of three-phase four-wire sys-tem". Polishchuk S.Y., Artemenko M.Yu., Mykhalskyi V.M., Batrak L. M. Publ. 11/11/2013. Bull. nо 21. (Ukr)
Polishchuk S.Y., Artemenko M.Yu., Mykhalskyi V.M., Batrak L. M., Shapoval I. A. (2013)."Shunt active filter control strategy with partial decrease of zero-sequence component in three-phase four-wire sys-tem“. Tekhnichna elektrodynamika. no.3. pp. 12-19. (Ukr)
Artemenko M. Y., Polishchuk L.M., Mykhalskyi V. M., Shapoval I.A., Batrak L. M. (2013). "Minimiza-tion of Cable Losses in Three-Phase Four-Wire Systems by means of Instantaneous Compensation with Shunt Active Filters". IEEE XXXIII International Scientific Conference “Electronics and nanotech-nology, pp. 359 – 362.
Milyah A.N., Shydlowskyi A.K., Kuznetsov A.G (1973). "Balancing of circuit single-phase loads in three-phase circuits". Kiyv: Naukova Dumka, P. 219 p. (Rus)
