Szczegóły Szczegóły PDF BIBTEX RIS Tytuł artykułu Dynamic variables limitation for backstepping control of induction machine and voltage source converter Tytuł czasopisma Archives of Electrical Engineering Rocznik 2012 Wolumin vol. 61 Numer No 3 September Autorzy Morawiec, Marcin Słowa kluczowe power electronics converters ; backstepping control ; dynamic variables limitation Wydział PAN Nauki Techniczne Zakres 389-410 Wydawca Polish Academy of Sciences Data 2012 Typ Artykuły / Articles Identyfikator DOI: 10.2478/v10171-012-0031-1 ; ISSN: 1427-4221 ; eISSN: 2300-2506 Źródło Archives of Electrical Engineering; 2012; vol. 61; No 3 September; 389-410 Referencje Young Hwang (2008), Robust adaptive backstepping control for efficiency optimization of induction motors with uncertainties. ; Lie Xu (2007), Direct Power Control of Grid Connected Voltage Source Converters, null. ; Ramos C. (2009), A new approach to design high performance current controllers for grid connected voltage source converters. ; Antoniewicz P. (2008), Virtual-Flux-Based Predictive Direct Power Control of AC/DC Converters with Online Inductance Estimation, IEEE Trans. on Industrial Electr, 55, 12. ; Zanchetta P. (2008), Predictive current control for multilevel active rectifiers with reduced Switching frequency, IEEE Trans. on Industrial Electr, 55, 1. ; Borisov K. (2009), Multifunctional VSC Based on a Novel Fortescue Reference Signal Generator, IEEE Trans. on Industrial Electr, 57. ; Malinowski M. (2001), Virtual-flux-based direct power control of three-phase PWM rectifiers, Trans. on Industrial Electr, 37, 4. ; Aurtenechea S. (2007), Predictive control strategy for DC/AC converters based on direct power control, IEEE Trans. on Industrial Electr, 54, 3. ; Krzeminski Z. (1987), Nonlinear control of induction motor, null. ; Payam A. (2006), Nonlinear sliding-mode controller for sensorless speed control of DC servo motor using adaptive backstepping observer, null. ; Krstic M. (1995), Nonlinear and Adaptive Control Design. ; Tan H. (1999), Adaptive Backstepping control of induction motor with uncertainties, null, 1. ; Adamowicz M. (2005), Minimum-time minimum-loss speed sensorless control of induction motors under nonlinear control, Compatibility in Power Electronics. ; Elmaguiri O. (2007), Digital backstepping control of induction motors, IEEE International Symposium on Industrial Electronics, 221, doi.org/10.1109/ISIE.2007.4374602 ; Nemmour A. (2009), Nonlinear control of induction motor based on the combined multi-scalar machine model and backstepping approach, null. ; Robertsson A. (1998), Observer Backstepping and Control Design of Linear Systems, null. ; Drid S. (2007), Robust backstepping vector control for the doubly fed induction motor, IET Control Theory Appl, 1, 4, 861, doi.org/10.1049/iet-cta:20060053 ; Hsin-Jang S. (1999), Nonlinear Sliding-Mode Torque Control with Adaptive Backstepping Approach, IEEE Trans. on Indust. Electronics, 46, 2. ; Hajian M. (2010), Adaptive Nonlinear Direct Torque Control of Sensorless IM Drives With Efficiency Optimization, IEEE Trans. on Indust. Electronics, 57, 3, doi.org/10.1109/TIE.2009.2029592 ; Uddin M. (2009), Development and Implementation of a Nonlinear-Controller-Based IM Drive Incorporating Iron Loss With Parameter Uncertainties, IEEE Trans. on Indust. Electronics, 56, 4, doi.org/10.1109/TIE.2008.2007551 ; Lin Chih-Min (2005), Recurrent-Neural-Network-Based Adaptive-Backstepping Control for Induction Servo motors, IEEE Trans. on Indust. Electronics, 52, 6. ; Tan Y. (2003), Adaptive Backstepping Control and Friction Compensation for AC Servo With Inertia and Load Uncertainties, IEEE Trans. on Indust. Electronics, 50, 5. ; Lin Faa-Jeng (2007), FPGA-Based Adaptive Backstepping Sliding-Mode Control for Linear Induction Motor Drive, IEEE Trans. on Power Electr, 22, 4. ; Carroll J. (1995), Integrator backstepping techniques for the tracking control of permanent magnet brush DC motors, IEEE Trans. On Indust. Appl, 31, 2, doi.org/10.1109/28.370270 ; Trabelsi R. (2010), Backstepping control for an induction motor with an adaptive Backstepping rotor flux observer, null. ; Uddin M. (2009), Development and Implementation of a Nonlinear-Controller-Based IM Drive Incorporating Iron Loss With Parameter Uncertainties, IEEE Trans. on Indust. Electronics, 56, 4. ; Krzeminski Z. (1999), A new speed observer for control system of induction motor, null. ; Morawiec M. (2011), Application of the state observer to identify squire-cage induction machine, Przegląd Elektrotechniczny (Electrical Review) ISSN 0033-2097, 87, 3.