References

Abbassi, R., S. Saidi, M. Hammami and S. Chebbi, 2015. Analysis of Renewable Energy Power Systems: Reliability and Flexibility during Unbalanced Network Fault. In: Handbook of Research on Advanced Intelligent Control Engineering and Automation, Abbassi, R., S. Saidi, M. Hammami and S. Chebbi (Eds.). IGI Global, Dauphin County, Pennsylvania, pp: 651-686.

Akagi, H., 1994. Trends in active power line conditioners. IEEE Trans. Power Electron., 9: 263-268.
CrossRef  |  

Bina, M.T. and E. Pashajavid, 2009. An efficient procedure to design passive LCL-filters for active power filters. Electr. Power Syst. Res., 79: 606-614.
CrossRef  |  

Chaer, T.A., L. Rambault and J.P. Gaubert, 2012. Electrical energy quality: Modeling and H∞ control of a three-phase shunt active filter. Intl. J. Control Autom. Syst., 10: 36-49.
Direct Link  |  

Chakravarthy, M., P.M. Sarma and S.N. Saxena, 2011. Comparative studies of different control strategies for shunt active filters. J. Eng. Appl. Sci., 6: 27-35.
Direct Link  |  

Choe, S.Y. and K. Heumann, 1991. Harmonic current compensation using three-phase current source converter. Proceedings of the European Conference on Power Electronics Ap-plications EPE’91 vol. 3, September 3-6, 1991, Litografia GEDA Publisher, Firenze, Italy, pp: 3.006-3.011.

Hayashi, Y., N. Sato and K. Takahashi, 1991. A novel control of a current-source active filter for ac power system harmonic compensation. IEEE. Trans. Ind. Appl., 27: 380-385.
CrossRef  |  Direct Link  |  

Malinowski, M., M.P. Kazmierkowski, S. Hansen, F. Blaabjerg and G.D. Marques, 2001. Virtual flux based direct power control of three phase PWM rectifiers. IEEE Trans. Ind. Applic., 37: 1019-1027.
CrossRef  |  Direct Link  |  

Maswood, A.I. and F. Liu, 2007. A unity-power-factor converter using the synchronous-reference-frame-based hysteresis current control. IEEE. Trans. Ind. Appl., 43: 593-599.
CrossRef  |  Direct Link  |  

Oku, K., O. Nakamura and K. Uemura, 1994. Measurement and analysis of harmonics in distribution systems and development of a harmonics suppression method. IEEJ. Trans. Power Energy, 114: 234-241.
Direct Link  |  

Rahmani, S., A. Hamadi, K. Al-Haddad and L.A. Dessaint, 2014. A combination of shunt hybrid power filter and thyristor-controlled reactor for power quality. IEEE Trans. Ind. Elect., 61: 2152-2164.
CrossRef  |  Direct Link  |  

Saidi, S., R. Abbassi and S. Chebbi, 2016. Fuzzy logic controller for three‐level shunt active filter compensating harmonics and reactive power. Intl. J. Adapt. Control Signal Process., 30: 809-823.
CrossRef  |  Direct Link  |  

Saidi, S., R. Abbassi and S. Chebbi, 2016. New approach for minimizing the harmonic currents in power systems. Proceedings of the IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC), June 7-10, 2016, IEEE, Florence, Italy, ISBN:978-1-5090-2321-9, pp: 1-5.

Singh, B., K. Al-Haddad and A. Chandra, 1999. A review of active filters for power quality improvement. IEEE Trans. Ind. Electron., 46: 960-971.
CrossRef  |  Direct Link  |  

Singh, G.K., A.K. Singh and R. Mitra, 2007. A simple fuzzy logic based robust active power filter for harmonics minimization under random load variation. Electric Power Syst. Res., 77: 1101-1111.
Direct Link  |