Nowoczesny doświadczalny układ sterowania silnikiem asynchronicznym

• Autorzy: Haithem A.R. , Guziński J. , Mostefa M.S.
• Języki publikacji: PL

Słowa kluczowe

PL

silnik asynchroniczny; model multiskalarny; prędkość kątowa wirnika

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 1998
• Tom: nr 1
• Strony: 10--16
• Opis fizyczny: Bibliogr. 19 poz., tab., wykr., schem.

Twórcy

autor

Haithem A.R.

• Uniwersytet wbirzeit na terenie Autonomii Palesryńskiej

autor

Guziński J.

autor

Mostefa M.S.

Bibliografia

• [1] Abu-Rub H.: System Control of Induction Motor Synthesis on the Basis of Variables Identification using the Power Measurements, (PH.D. thesis), Technical University of Gdańsk, Poland, 1995.
• [2] Abu-Rub H.: Control System of Induction Motor Basedon Mulliscalar Model, PEMC'94 Power Electronics, Motion Control, Warsaw, 1904, 641-645.
• [3] Abu-Rub H,, Krzemiński Z.: Multiscalar Model Based Determining the Rotor Speed of Induction Motor, EPNC (Electromagnetic Phenomena in Nonlinear Circuits), 1994, Poland-Poznań, 1994, 267-272.
• [4] Abu-Rub H., Krzemiński Z.: System Control of Induction Motor, ICRAM'95 (International Conference on Recent Advances in Mechatronics), Istanbul, 1995.
• [5] Abu-Rub H., Hasan S.: Rotor Resistance Identification in System Control of an Induction Motor, 3rd East-West Congress on Engineering Education, Gdynia, 1996.
• [6] Akagi H., Kanazawa Y., Nabae A.: Generalized Theory of the Instantaneous Reactive Power in Three-Phase Circuits, IPEC'83, Tokyo, Japan, 1375-1385.
• [7] Bellini A., Figali G.: (1993). "An Adaptive Control for Induction Motor Drives Based on a Fully Linearized Model", EPE 5th Europ. Conf. on Pow. Elcc. and Applic., Brighton, str. 196-201.
• [8] Chen B., Ruan Y., Xu Y., Gong S.: (1993). Nonlinear Decoupling Control Strategy for Variable Frequency Induction Motor System Fed by Hysteresis-Band Current Controlled PWM Inverter, EPE 5th Europ. Conf. on Pow. Elec. and Applic., Brighton, str. 98-101.
• [9] De Luca A., Ulivi G.: (1989). Design of an Exact Nonlinear Controller for Induction Motor, IEEE Trans. Aut. Contr. Vol. 34, No 12, p. 1304-1307.
• [10] Kim G.. Ha I., Ko M.S.: (1992). "Control of Induction Motors for Both High Dynamics Performance and High Power Efficiency”, IEEE Trans, on Industrial Electronics Vol. 39.
• [11] Krzemiński Z., Guziński J.: Control System of Induction Motor without Speed Sensor based on Steady State Relationships, International Conference on Electrical Drives and Power Electronics, Kosice, 1996.
• [12] Krzemiński Z.: Nonlinear Control of Induction Motor, IFAC 10th World Congress on Automatic Control, Munich, 1987, pp. 349-354.
• [13] Krzemiński Z.: System Control of Induction Motor with Observers using the Power Measurements, V Symposium „Basic Problems of Power Electronics, Ustroń-Jaszowiec-Poland, 1993,583-542.
• [14] Krzemiński Z.. Jąderko A.: Main Magnetic Path Saturation Effect in Observer System of the Induction Motor, IEEE International Symposium on Industrial Electronics, Budapest, 1993, pp. 753-758.
• [15] Krzemiński Z.: Struktura układów nieliniowego sterowania silnikiem asynchronicznym, Zeszyt Politechniki Częstochowskiej, 1991, nr 23.
• [16] Marino R., Peresada S., Valigi P.: (1993). Adaptive Input-Output Linearizing Control of Induction Motors, IEEE Trans, on Automatic Control, Vol. 38.
• [17] Morici R., Rossi C., Tonielli A.: (1993). Discrete-Time Nonlinear Controller for Induction Motor, IECON’93, Hawaje.
• [18] Tunia H., Kaźmierkowski M.P.: Podstawy automatyki napędu elektrycznego. PWN, Warszawa 1978.
• [19] Yan W., Dianguo X., Yongjun D., Jinggi L.: (1988) Nonlinear Feedback Decoupling Control of Induction Motor Scrvosystcm, The 2nd International Conference on Electrical Drives, Poiana Brasov (Rumunia), str. C.211-217.