Harmonics Reduction of Shunt Active Power Filters Using PI Controller
Keywords:
Active Power Filters, Harmonics, PI controller, MATLABAbstract
The problem of quality electrical energy provided to the users has arisen. This is due to the increasing presence in network of nonlinear loads. They constitute a harmonic pollution source of the network, which generate many disturbances, and disturb the optimal operation of electrical equipments. This work, proposed a solution to eliminate the harmonics introduced by the nonlinear loads. It presents the analysis and simulation using Matlab Simulink of a active power filter (APF) compensating the harmonics and reactive power created by nonlinear loads in steady and in transients. The usefulness of the simulation approach to APF is demonstrated, have a better power quality insight using Matlab Simulink in order to develop new PI controller based active power filter.
References
Programmed-Waveform Pulse-Width Modulation,” IEEE Transactions on Industry Applications, Vol. IA-16, Sept./Oct. 1980, pp. 707–715.
Wilson E. Kazibwe and Mucoke H. Senduala: “Electric Power Quality Control Techniques”. New York: Van Nostrand Reinhold, 1993.
N. Mohan, “A Novel Approach to Minimize Line-Current Harmonics in Interfacing Power Electronics Equipment with 3-Phase Utility Systems,” IEEE Trans. on Power Delivery, Vol. 8, July 1993, pp. 1395-1401.
Elias M. Stein, Timonthy S. Murphy: “Harmonic Analysis: Real Variable Methods, Orthogonality and Oscillatory Integrals”, Princeton, N.J.: Princeton University Press, 1993.
J.S. Lai and T.S. Key, “Effectiveness of harmonic mitigation equipment for commercial office buildings,” IEEE Transactions on Industry Applications, vol. 33, no. 4, Sept. 1997, pp. 1065-1110.
S. Hansen, P. Nielsen and F. Blaabjerg, “Harmonic cancellation by mixing nonlinear single-phase and three-phase loads,” IEEE Transactions on Industry Applications, vol. 36, no. 1, 2000, pp. 152-159.
B. Acarkan, S. Zorlu and O. Kilis, “Nonlinear resistance modeling using MATLAB and Simulink in estimation of city street lighting harmonic activity,” IEEE EUROCON, The International Conference on Computer as a Tool, vol. 2, Nov. 2005, pp. 1251-1254.
S.-J. Huang, J.-C. Wu, “A control algorithm for three-phase three wired active power filter under non-ideal mains voltages,” IEEE Trans. Power Electron., Vol. 14, no. 4, July 1999, pp. 753–760.
B.N. Singh, A. Chandra, A. Al-Haddad, “Performance comparision of two control techniques applied to an active filter,” 8th International Conference on Harmonics and Power Quality, October 1998, pp. 133-138.
D. Chen, S. Xie, “Review of the control strategies applied to active power filters,” in: Proc. IEEE Int. Conf. on Electric Utility Deregulation, Restructuring and Power Technologies (DRPT-2004), Hong Kong, April 2004, pp. 666–670.
A.M. Massoud, S.J. Finney, B.W. Williams, “Practical issues of three-phase, three-wire, voltage source inverter-based shunt active power filters,” in: Proc. 11th Int. Conf. on Harmonics and Quality of Power, 2004, pp. 436–441.
B. Singh, A. Chandra, K. Al-Haddad, “Computer aided modeling and simulation of active power filters,” Electr. Mach. Power Syst., 27 November 1999, pp. 1227–1241.
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