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Adaptive Neuro-Fuzzy Dividing Frequency Controlfor the Development of Hybrid Active Power Filter

M. S. Sujatha*, T. Susritha**, Vijay Kumar***
*,** Research Scholar, Department of EEE,SVEC, A.Rangampeta, Tirupati.
*** Professor, Department of EEE, JNTUCEA, Ananthpur.
Periodicity:January - March'2011
DOI : https://doi.org/10.26634/jee.4.3.1399

Abstract

This paper deals with a hybrid active power filter with injection circuit (IHAPF). It shows great promise in reducing harmonics and improving the power factor with a relatively low capacity active power filter. To minimize the capacity of IHAPF, an adaptive fuzzy dividing frequency-control method is proposed which consists of two control units: a generalized integrator control unit and fuzzy adjustor unit. The generalized integrator is used for dividing frequency integral control, while fuzzy arithmetic is used for adjusting proportional-integral coefficients timely. And the control method is generally useful and applicable to any other active filters. Compared to other IHAPF control methods, the adaptive fuzzy dividing frequency control shows the advantages of shorter response time and higher control precision. The simulation and experimental results shows that the new control method is not only easy to be calculated and implemented, but also very effective in reducing harmonics. In this paper Adaptive Neuro-Fuzzy controller is also used to develop the Hybrid Active Power Filter which has the advantages of reduced rule-base and fast response compared to Adaptive Fuzzy dividing frequency control method [1].

Keywords

 Dividing Frequency Control, Fuzzy Adjustor, Generalized Integrator, Hybrid Active Power Filter (HAPF), Neuro-Fuzzy

How to Cite this Article?

 M.S. Sujatha, T. Susritha and M. Vijay Kumar (2011). Adaptive Neuro-Fuzzy Dividing Frequency Control For The Development Of Hybrid Active Power Filter. i-manager’s Journal on Electrical Engineering, 4(3), 43-53. https://doi.org/10.26634/jee.4.3.1399

References
[1]. A.Luo, Z.Shuai, W.Zhu, C.Tu. (2009). “Development of Hybrid Active Power Filter Based on the Adaptive Fuzzy Dividing Frequency-Control Method”, IEEE Trans. Power Del,Jan, Vol 24, No.1, 424-432, January.
[2]. L. Gyugyi and E. C. Strycula, (1976). “Active Ac power filters,” in Proc. IEEE, Ind. Appl. Soc. Annu. Meeting, pp. 529–535.
[3]. N. Mohan, H.A. Peterson, W.F. Long, G.R. Dreifuerst,and J.J. Vithayathil, (1977). “Active filters for AC harmonic suppression,” presented at the IEEE Power Eng. Soc. Winter meeting, pp 168-174.
[4]. F. Peng, H. Akagi, and A. Nabae, (1990). “A new approach to harmonic compensation in power system-a combined system of shunt passive and series active filters,” IEEE Trans. Ind. Appl. Nov, Vol26, No.6, pp. 983- 990,Nov.
[5]. C. Madtharad and S. Premrudeepreechacharn, (2002). “Active power filter for three-phase four-wire electric systems using neural networks,” Elect. Power Syst. Res. Apr., Vol.60, No. 2, pp.179-192.
[6]. H. Fujita and H. Akagi, (1991). “a practical approach to harmonic compensation in power system-series connection of passive and active filters,” IEEE trans Ind. Appl. Nov., Vol27, No.6, pp.1020-1025.
[7]. S. Kim and P.N. Enjeti, (2002). “A new hybrid active power filter (APF) topology,” IEEE trans. Power Electronics, Vol.17, No. 1, Jan, pp. 48-54.
[8]. A. Nakajima, K. Oku, J. Nishidai, T. Shiraishi, Y. Ogihara, K. Mizuki, and M. Kumazava, (1988). “Development of active filter with series resonant circuit,” in Proc 19th IEEE Annu. Power Electronics Specialists Conf. Rec., Apr. 11-14, Vol. 2, pp. 1168-1173.
[9]. L. Malesani, P. Mattavelli, and P. Tomasin, (1997). “High performance hysteresis modulation technique for active filters,” IEEE Trans. Power Electron., Vol. 12, No. 5, pp. 876–884, Sep.
[10]. S. Fukuda and R. Imamura, (2005). “Application of a sinusoidal internal model to current control of three-phase utility-interface converters,” IEEE Trans. Ind. Electron., Vol. 52, No. 2, pp. 420–426, Apr.
[11]. X. Yuan, W. Merk, H. Stemmler, and J. Allmeling, (2002). “Stationary-frame generalized integrators for current control of active power filters with zero steadystate error for current harmonics of concern under unbalanced and distorted operating conditions,” IEEE Trans. Ind. Appl. Mar, Vol. 38, No. 2, pp. 523–532.
[12]. K. Nishida, Y. Konishi, and M. Nakaoka, (2002). “Current control implementation with deadbeat algorithm for three-phase current-source active power filter,” Proc. Inst. Elect. Eng., Electr. Power Appl. Jan, Vol. 149, No. 4, pp. 275–282.
[13]. J. H. Marks and T. C. Green, (2002). “Predictive transient-following control of shunt and series active power filters,” IEEE Trans. Power Electron. Jul., Vol. 17, No. 4, pp. 574–584.
[14]. H. Fujita and H. Agaki, (1998). “The unified power quality conditioner: the integration of series and shuntactive filters,” IEEE Trans. Power Electron. Mar., Vol. 13, No. 2, pp. 315–322.
[15]. K. J. P. Macken, K. M. H. A. De Brabandere, I. J. L. Dnesen, and R. J.M. Belmans, (2001). “Evaluation of control algorithms for shunt active tillers under unbalanced and nonsinusoidal conditions,” in Proc. IEEE PortaPower Tech. Conf., Porto, Portugal, Sep. Vol. 13, No. 13. pp. 1621–1626.
[16]. F. Ruixiang, L. An, and L. Xinran, (2006). “Parameter design and applicationresearch of shunt hybrid active power filter,” Proc. CSEE, Jun. Vol. 26, No.2, pp. 106–111.
[17]. S. Bhattachaya, P.-T. Cheng, Deep, and M. Divan, (1997). “Hybrid solutions for improving passive filter performance in high power applications,” IEEE Trans Ind. Appl. May., Vol. 33, No. 3, pp. 732–747.
[18]. B. K. Bose, (1994). “Expert systems, fuzzy logic, and neural network application in power electronics and motion control,” in Proc. IEEE, Aug. Vol. 82, No. 8, pp. 1303–1323.
[19]. W. M. Grady,M. J. Sanotyj, and A. H. Noyola, (1990). “Survey of active powerline conditioning methodologies,” IEEE Trans. Power Del. Jul., Vol. 5, No.3, pp. 1536–1542.
[20]. Y.-M. Chen and R. M. O. Connell, (1997). “Active power line conditioner with a neural network control,” IEEE Trans. Ind. Appl.Jul. Aug., Vol. 33, No. 4, pp. 1131–1136.
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