Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The article presents the current state and development trends of electrical drives, with particular emphasis on modern control structures and safety systems of various types of electrical machines. Special attention was paid to the needs of industrial drive systems and a possibility of practical implementation of complex control algorithms. Development perspectives of electrical drives are discussed from the perspective of new trends in control, power electronics and electrical machines, with consideration for systems robust to faults of drive system elements.
Wydawca
Czasopismo
Rocznik
Strony
5--25
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
- Department of Electrical Machines, Drives and Measurementss, Wroclaw University of Technology, Poland
autor
- Department of Electrical Machines, Drives and Measurementss, Wroclaw University of Technology, Poland
Bibliografia
- [1]ORŁOWSKA-KOWALSKA T., State of the Art and Future Development of Electrical Drives, Przegląd Elektrotechniczny, 2004, Vol. 80, No 3, 185–190, (in Polish).
- [2]FINCH J.W., GIAOURIS D., Controlled AC Electrical Drives, IEEE Trans. Industrial Electronics, Vol. 55, No. 2, 481–491, 2008.
- [3]HERMANN, PENTEK, OTTO, Design Principles for Industrie 4.0 Scenarios, 2015.
- [4]CIENIAK I., Polish market of electric drives and servodrives, Control Engineering Polska, 2011, (in Polish).
- [5]SCHWAB K., The Fourth Industrial Revolution, 2016.
- [6]ORŁOWSKA-KOWALSKA T., Sensorless induction motor drives, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 2003, (in Polish).
- [7]DYBKOWSKI M., Estimation of Speed in a Vector Controlled Induction Motor Drive – Selected Problems, Scientific Papers of the Institute of Electrical Machines, Drives and Measurements of the Wroclaw University of Technology, ser. Monographs, Vol. 20, Wrocław 2013, (in Polish).
- [8]KAZMIERKOWSKI M.P., BLAABJERG F., KRISHNAN R., Control in Power Electronic – Selected Problems, Academic Press, USA, 2002.
- [9]BLASCHKE F., The principle of field orientation as applied to the new TRANSVECTOR closed-loop control system for rotating field machines, Siemens Review, 1972, No. 34, 217-220.
- [10]HASSE K., Drehzahlgelverfahren fur schnelle Umkehrantriebe mit stromrichtergespeisten Asynchron-Kurzchluss-laufer-motoren, Reglungstechnik, 1972, No. 20, 60–66.
- [11]TAKAHASHI I., NOGUCHI T., A new quick response and high efficiency control strategy of an induction motor, IEEE Trans. Industry Applications, Sept/Oct 1986, Vol. IA-22, No. 5, 820–827.
- [12]DEPENBROCK M., Direkte Selbstregelung (DSR) fuer hoch dynamische Drehfeldantriebe mit Stromrivhterschaltung, ETZA, 1985, Vol. 7, 211–218.
- [13]KRYKOWSKI K., PM BLDC Motor in Electric Drive. Analysis, Properties, Modelling, Wydawnictwo Politechniki Śląskiej, Gliwice 2011, (in Polish).
- [14]ZAWIRSKI K., Control of Permanent Magnet Synchronous Motor, Wydawnictwo Politechniki Poznańskiej, Poznań 2005, (in Polish).
- [15]GIERAS J.F., GIERAS I.A., Electric motors – the future, Proc. of 9th Int. Conf. on Power Electronics and Motion Control, PEMC’2000, Kosice, Slovak Republic, 2000, 1.12–1.18.
- [16]MALINOWSKI M., Sensorless Control Strategies for Three-Phase PWM Rectifiers, Doctoral Thesis, Warsaw University of Technology, Warszawa 2001.
- [17]SZABAT K., ORŁOWSKA-KOWALSKA T., DYBKOWSKI M., Indirect Adaptive Control of Induction Motor Drive with an Elastic Coupling, IEEE Trans. Industrial Electronics, 2010, Vol. 56, No. 10, 4038–4042.
- [18]ORŁOWSKA-KOWALSKA T., TARCHAŁA G., DYBKOWSKI M., Sliding-Mode Direct Torque Control and Sliding-Mode Observer with magnetizing reactance estimator for induction motor drive, Mathematics and Computers in Simulation, Vol. 98, 2014, 31–45.
- [19]KAMIŃSKI M., ORŁOWSKA-KOWALSKA T., Adaptive Neural Speed Controllers Applied for a Drive System with an Elastic Mechanical Coupling – a Comparative Study, Engineering Applications of Artificial Intelligence, October 2015, Vol. 45, 152–167.
- [20]WRÓBEL K., SERKIES P.J., Predictive position controller for the induction motor drive, Poznań University of Technology Academic Journals, Electrical Engineering, 2015, No. 83, 169–176.
- [21]KOWALSKI C.T., Diagnostics of the Induction Motor Drives using Artificial Intelligence Methods, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 2013, (in Polish).
- [22]ORŁOWSKA-KOWALSKA T., SOBAŃSKI P., Simple diagnostic technique of single IGBT open-circuit fault in SVM-VSI vector-controlled induction motor drive, Bulletin of the Polish Academy of Sciences, Technical Sciences, 2015, Vol. 63, No. 1, 281–288.
- [23]KLIMKOWSKI K., DYBKOWSKI M., Analysis of vector controlled induction motor drive robust to chosen sensor faults, Poznań University of Technology, Academic Journals, Electrical Engineering, 2014, No. 77, 193–200.
- [24]WOLKIEWICZ M., TARCHAŁA G., KOWALSKI C.T., Stator windings condition diagnosis of voltage inverter-fed induction motor in open and closed-loop control structures, Archives of Electrical Engineering, 2015, Vol. 64, No. 1, 67–79.
- [25]ISERMANN R., Fault Diagnosis Systems. An Introduction from Fault Detection to Fault Tolerance, Springer, New York 2006.
- [26]JIN JIANG, XIANG YU, Fault-tolerant control systems: A comparative study between active and passive approaches, Annual Reviews in Control, April 2012, Vol. 36, No. 1, 60–72.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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