A Novel Fuzzy—Adaptive Hysteresis Controller Based Three Phase Four Wire-Four Leg Shunt Active Filter for Harmonic and Reactive Power Compensation

P. Rathika; D. Devaraj

doi:10.4236/epe.2011.34053

Energy and Power Engineering > Vol.3 No.4, September 2011

A Novel Fuzzy—Adaptive Hysteresis Controller Based Three Phase Four Wire-Four Leg Shunt Active Filter for Harmonic and Reactive Power Compensation

P. Rathika, D. Devaraj
.
DOI: 10.4236/epe.2011.34053 PDF HTML 7,738 Downloads 12,674 Views Citations

Abstract

This paper presents a fuzzy logic based three phase four wire four-leg shunt active power filter to suppress harmonic currents. Modified instantaneous p-q theory is adopted for calculating the compensating current. Fuzzy-adaptive hysteresis band technique is applied for the current control to derive the switching signals for the voltage source inverter. A fuzzy logic controller is developed to control the voltage of the DC capacitor. Computer simulations are carried out on a sample power system to demonstrate the suitability of the proposed control strategy, for harmonic reduction under three different conditions namely, ideal, unbalance, unbalance and distorted source voltage conditions. The proposed control strategy is found to be effective to reduce the harmonics and compensate reactive power and neutral current and balance load currents under ideal and non-ideal source voltage conditions.

Keywords

Harmonics, Shunt Active Power Filter (APF), Harmonics, Hysteresis Band, Fuzzy Logic Control, P-Q Theory

Share and Cite:

P. Rathika and D. Devaraj, "A Novel Fuzzy—Adaptive Hysteresis Controller Based Three Phase Four Wire-Four Leg Shunt Active Filter for Harmonic and Reactive Power Compensation," Energy and Power Engineering, Vol. 3 No. 4, 2011, pp. 422-435. doi: 10.4236/epe.2011.34053.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	B. Singh, K. Al Haddad and A. Chandra, “A Review of Active Filters for Power Quality Improvement,” IEEE Trans on Industrial Electronics, Vol. 46, No. 5, October 1999, pp. 960-970. doi:10.1109/41.793345
[2]	L. Asiminoaei, Fr. Blaabjerg and S. Hansen, “Evaluation of Harmonic Detection Methods for Active Power Filter Applications,” Applied Power Electronics Conference, Vol. 1, March 2005, pp. 635-641.
[3]	K. G. Firouzjah, A. Sheikholeslami, M. R. Karami-Mollaei and F. Heydari, “A Predictive Current Control method for Shunt Active Filter with Windowing Based Wavelet Transform in Harmonic Detection,” Simulation Modelling Practice and Theory, Vol. 17, No. 1, 2009, pp. 883-896. doi:10.1016/j.simpat.2009.02.008
[4]	L. S Czarnecki, “On some Misinterpretations of the Instantaneous Reactive Power p-q Theory,” IEEE Transaction on Power Electronics, Vol. 19, No. 3, 2003, pp. 828-836.
[5]	J. Afonso, C. Couto and J. Martins, “Ative Filters with Control Based on the p-q Theory,” IEEE Industrial Electronics Society Newsletter, Vol. 47, No. 3, 2000, pp. 5-10.
[6]	Z. Salam, T. P. Cheng and A. Jusoh, “Harmonics Mitigation Using Active Power Filter: A Technological Review,” Elekrika, Vol. 8, No. 2, 2006, pp. 17-26.
[7]	H. Akagi, E. H. Watanabe and M. Aredes, “The P-Q Theory for Active Fiter Control:Some Problems and Solutions,” Revista Controle & Automacao, Vol. 15, No. 1, 2004, pp. 945-970.
[8]	H. Abaali, M. T. Lamchich and M. Raoufi, “The Three Phase Shunt Active Fiters for the Harmonics Compensation under Distorted and Unbalanced Mains Voltage Conditions,” IEEE International Conference on Industrial Technology (ICIT), Vol. 1, 2004, pp. 558-563.
[9]	K. G. Firouzjaz, A. Sheikholeslami, M. R. Karami and F.Heydari, “Predictive Current Control Method for Shunt Active Filter with Windowing Based Wavelet Transform in Harmonic Detection,” Simulation Modelling Practice and Theory, Vol. 17, No. 1, 2009, pp. 883-896. doi:10.1016/j.simpat.2009.02.008
[10]	M. S. A. Al-Haddad, F. Fnaiech and L. A. Dessaint, “Sliding Mode Control of 3-Phase 3-Wire Phase Shunt Active Filter in the dq Frame,” IEEE Proceedings, Vol. 2, 2001, pp. 765-769.
[11]	J. Rodriguez, J. Ponti, C. Silva, S. Kouro, A. Liendo and J. Rebolleo, “Hysteresis Current Control and DTC: An Assessment,” International Journal of Electronics, Vol. 91, No. 11, 2004, pp. 639-651. doi:10.1080/00207210412331332871
[12]	M. Kale, E. Ozdemir, “An Adaptive Hysteresis Band Current Controller for Shunt Active Power Filter,” Electrical Power and Energy Systems, Vol. 73, No. 2, 2005, pp. 113-119.
[13]	A. D. Aquila and A. Lecci, “A Current Control for Three-Phase Four Wire Shunt Active Filters,” Automatika, Vol. 44, No. 3-4, 2003, pp. 129-135.
[14]	L. Malesani, P. mattavelli and P. Tomasin, “High-Performance Hysteresis Modulation Technique for Active Filters,” IEEE Transactions on Power Electronics, Vol. 12, No. 5, 1997, pp. 876-884. doi:10.1109/63.623006
[15]	M. Kale and E. Ozdemir, “An Adaptive Hysteresis Band Current Controller for Shunt Active Power Filter,” Electrical Power and Energy Systems, Vol. 73, No. 2, 2005, pp. 113-119.
[16]	S. Buso, L. Malesani and P. Mattavelli, “Comparison of Current Control Techniques for Active Power Filter Applications,” IEEE Transactions on Industrial Electronics, Vol. 45, No. 5, 1998, pp. 722-729. doi:10.1109/41.720328
[17]	S. K. Jain, P. Agrawal and H. O. Gupta, “Fuzzy Logic Controlled Shunt Active Power Filter for Power Quality Improvement,” IEE Proceedings in Electrical Power Applications, Vol. 149, No. 5, September 2002, pp. 317- 328.
[18]	C. Sharmeela, M. R. Mohan, G. Uma and J. Baskaran, “Fuzzy Logic Controller Based Three-phase Shunt Active Filter for Line Harmonics Reduction,” Journal of Comuter Science, Vol. 3, No. 2, 2007, pp. 76-80.

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