International Journal of Renewable Energy Research-IJRER

The evolution of the efficiency of wind farms is very recognized in the production and use of renewable energy in the countries concerned by this new trend. The converters currently are an essential means in the performance of DFIG (Doubly-fed induction generators) in wind turbines Doubly-fed induction generators. In this paper an associated passive RL load – matrix converter under supply voltage connected system is studied. The influence of disturbed input supply voltage on output current waveforms has been discussed. We aim to extract sinusoidal output current waveforms, the conventional PWM methods and the optimum Venturini method with fuzzy logic control approach can be applied for controlling the matrix converter. Finally, Simulations results will be presented and interpreted, and a special attention is given to suppressing harmonic pollutions using total harmonic distortion evaluation.

S. L. Arevalo, Matrix Converter for Frequency Changing Power Supply Applications, Submitted to the University of Nottingham for the degree of Doctor of Philosophy, January 2008.

Gyugyi, L and Pelly, B.R, “Static Power Chargers, Theory, Performance and Application,†John Wiley & Son Inc, 1976.

S. M. Barakati , Modeling and Controller Design of a Wind Energy Conversion System Including a Matrix Converter , thesis of Doctor of Philosophy in Electrical and Computer Engineering Waterloo, Ontario, Canada, 2008.

L. Zarri, Control of Matrix Converters , Ph. D. in Electrical Engineering XIX year power electronics, machines and drives (ING-IND/32), University of Bologna. 2007.

P.W. Wheeler, J. Rodriguez, J.C. Clare, et al., “Matrix Converters: a Technology Reviewâ€, IEEE Trans. Ind. Electron., Vol. 49, no.2,pp.276-288, April 2002.

M. Venturini, “A new sine wave in sine wave out, conversion technique which eliminates reactive elements,†Proc. POWERCON 7, 1980 pp. E3_1-E3_15.

M. Venturini and A. Alesina, “The generalised transformer: A new bidirectional sinusoidal waveform frequency converter with continuously adjustable input power factorâ€, in Conf. Rec. IEEE PESC’80, pp. 242-252.

M. Y. Lee, Three-level Neutral-point-clamped Matrix Converter Topology, University of Nottingham, thesis of Doctor of Philosophy, March 2009.

N. J. Mason, BEng, Space Vector Modulation of a 4-Leg Matrix Convert Thesis submitted to The University of Nottingham for the degree of Doctor of Philosophy, November, 2011.

H. Karaca, R. Akkaya, H. Doğan, A Novel Compensation Method Based on Fuzzy Logic Control for Matrix Converter under Distorted Input Voltage Conditions», Proceedings of the International Conference on Electrical Machines, 2008.

V. Kumar and R. R. Joshi, Fuzzy Logic Based Light Load Efficieny Improvement of matrix converter Based wind Generation system , Journal of Theoretical and Applied Information Technology, 2007.

C. Venugopal, K.S.Ravichandran, and R.Varadarajan, Fuzzy Logic Based Matrix Converter for Speed Control of Induction MotorJournal of Electrical Engineering: Theory and Application (Vol.1, pp. 151-157, 2010.

IEEE Standard 519-1992, IEEE recommended practices and requirements for harmonic control in electrical power systems," IEEE Std 519-1992, 12 April.1993.