Comparative Study of PI and Fuzzy DC Voltage Control for a DPC- PWM Rectifier

• Autorzy: Semmah A. , Massoum A. , Hamdaoui H. , Wira P.

Warianty tytułu

PL

Analiza porównawcza sterownika napięcia DC w przekształtniku DPC-PWM

• Języki publikacji: EN

Abstrakty

EN

This paper treats control strategies of a pulse width modulation (PWM) rectifier to eliminate harmonics currents and consequently to reduce total harmonic distortion of the line current and improve power factor. It is about the use of direct control principle to control instantaneous active and reactive powers. Such a technique is called direct power control (DPC). The principal idea of DPC was suggested initially by Ohnishi (1991) and developed then by Noguchi and Takahachi in 1998. This concept is similar to DTC applied to induction motors. A comparative study, concerning the DC voltage control, will be given in this study. It is about the use of a PI controller and a fuzzy logic one to ensure a stable active power exchange. A digital simulation, in Matlab/Simulink/SimPowerSystems and Fuzzy Logic Toolbox, was carried out and given in the end of this paper. The simulation results show clearly the supremacy of the technique adopted to control the DC voltage.

PL

Analizowano różne strategie przekształtnika PWM umożliwiające eliminację prądów harmonicznych a w konsekcencjio poprawę współczynnika THD. Zastosowano technikę SPC – direct power control. Wykorzystano kontrolery PI i logiki rozmytej. Metody oceniono przeprowadzając symulacje.

Słowa kluczowe

EN

electrical technology; electrical power engineering; PWM rectifier; direct power control; voltage estimation; instantaneous active; reactive powers; fuzzy control

PL

elektrotechnika; elektroenergetyka; przekształtnik PWM; DPC; direct power control

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2011
• Tom: R. 87, nr 10
• Strony: 355--359
• Opis fizyczny: Bibliogr. 14 poz., il., tabl., wykr.

Twórcy

autor

Semmah A.

autor

Massoum A.

autor

Hamdaoui H.

autor

Wira P.

• ICEPS Laboratory, Engineer Sciences Faculty, Electrical Engineering Department, Djillali Liabes University of Sidi Bel Abbes 22000, Algeria,

Bibliografia

• [1] H.Azizi, A.Vahedi, Performance Analysis of Direct Power Controlled PWM Rectifier under Disturbed AC Line Voltage, ICREPQ’05, 15-16-17 March 2005, Zaragoza- Spain.
• [2] Malinowski M, Kazmierkowski MP, Trzynadlowski A. Review and comparative study of control techniques for three-phase PWM rectifiers. Mathematics and Computers in Simulation, Volume 63, Issues 3-5, 17 November 2003, Pages 349-361.
• [3] Kazmierkowski MP, Malesani L. Current control techniques for three-phase voltage-source PWM converter: a survey. IEEE Trans Ind Electron 1998;45:691–703.
• [4] Malinowski M, Kazmierkowski MP, Hansen S, Blaabjerg F, Maeques GD. Virtual flux based direct power control of three phase PWM rectifiers. IEEE Trans Ind Appl 2001; 37:1019–27.
• [5] Manninen V., “Application of Direct Torque Control Modulation Technology to a Line Converter”. Conférence EPE’95, p. 1292- 1296, Sevilla (Espagne), 1995.
• [6] C. Attaianese, G. Tomasso, A. Damiano, I. Marongiu, A. Perfetto. “Direct Torque and Flux Control of Induction Motor Drives”. Conférence PEDS’97 (Singapore), Mai 1997
• [7] Noguchi T., Tomiki H., Kondo S., Takahashi, “Direct Power Control of PWM converter without power-source voltage sensors”. IEEE Trans. on Industrial Application, vol 34, p. 473- 479, 1998.
• [8] Jian; Kang Yong; Duan Shan Xu; Zhang Kai; Chen Jian ,"Simplified control circuit of three phase PWM rectifier "Applied Power Electronics Conference and Exposition, 1999. APEC '99. Fourteenth Annual Published: 1999 Volume: 1: 229 -233.
• [9] Bouafia A, Krim F, Gaubert JP. Design and implementation of high performance direct power control of three-phase PWM rectifier, via fuzzy and PI controller for output voltage regulation. Energy Convers Manage 2009;50(1):6–13.
• [10] Chaoui A, Krim F, Gaubert JP, Rambault L. DPC controlled three-phase active filter for power quality improvement. Int J Electric Power Energy Syst 2008;30(8):476–85
• [11] D.C. Lee, and D.S. Lim, AC Voltage and Current Sensorless Control of Three-Phase PWM Rectifiers, IEEE TRANSACTIONS ON POWER ELECTRONICS, VOL. 17, NO. 6, NOVEMBER 2002, pp 883-890
• [12] Lokman H. Hassan & all. Takagi-Sugeno Fuzzy Gains Scheduled PI Controller for Enhancement of Power System Stability, American Journal of Applied Sciences 7 (1): 145-152, 2010
• [13] H. Hamdaoui, A.Semmah, M.K.Fellah, Fuzzy Learning Control of Advanced Super-Conducting Magnetic Energy Storage to Improve Transient Power System Stability. Iranian Journal of Electrical and Computer Engineering, vol. 3, no. 2, summer-fall 2004.
• [14] A. Semmah, H.Hamdaoui, A.Ayad, Y.Ramdani. Commande Flous et Neuro-Floue d’un dispostif FACTS. Revue roumaine des sciences techniques, série électrotechnique et énergétique, Vol. 54, n°02, pp 195-204, Bucarest 2009