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Tytuł artykułu

Input-Output Linearization and Predictive Current Controller for Offshore Wind Farm VSC-HVDC

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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
System sterowania dla farm wiatrowych w układzie VSC-HVDC – linearyzacja wejścia/wyjścia, sterowanie predykcyjne prądu
Języki publikacji
EN
Abstrakty
EN
In this paper, a nonlinear controller for VSC-HVDC transmission system is proposed. The feedback linearization based nonlinear differential-geometric techniques is used to cancel nonlinearities and decouple the input control variables. A predictive current control (PCC) method is also proposed. It can predict the current reference for the next sampling instant rapidly and accurately. Comprehensive time-domain computer simulations within MATLAB/Simulink have been carried out and the results show the feasibility and effectiveness of the proposed control scheme.
PL
W artykule przedstawiono algorytm sterowania nieliniowego dla system przesyłu energii VSC-HVDC. W celu odprzężenia sterowanych zmiennych i eliminacji nieliniowości, zastosowano technikę nieliniowej geometrii-różniczkowej do linearyzacji sprzężenia zwrotnego. Zaproponowano także sterowanie predykcyjne prądu. Wykonane badania symulacyjne w programie Matlab/Simulink potwierdziły skuteczność algorytmu sterowania.
Rocznik
Strony
230--234
Opis fizyczny
Bibliogr. 20 poz., schem., wykr.
Twórcy
autor
  • School of Electronic Information and Electrical Engineering, Shanghai Jiaotong University
autor
  • School of Electronic Information and Electrical Engineering, Shanghai Jiaotong University
autor
  • School of Electronic Information and Electrical Engineering, Shanghai Jiaotong University
Bibliografia
  • 1] Nogal, L., Stability enhancing control of HVDC connection, Przeglad Elektrotechniczny, 88 (2012), No. 3A, 121-124
  • [2] Dong-Choon L., G-Myoung L., and K.-D. L., DC-Bus Voltage Control of Three-Phase AC DC PWM Converters Using Feedback Linearization, IEEE Transactions On Industry Applications, 36 (2000), No. 3, 826-833
  • [3] Du, C.Q., Agneholm E., and Olsson G., VSC-HVDC System for Industrial Plants With Onsite Generators, IEEE Transactions on Power Delivery, 24 (2009), No. 3, 1359-1366
  • [4] Abbas A.M., and Lehn P.W., PWM Based VSC-HVDC Systems - a Review, IEEE Power & Energy Society General Meeting, 1-8 (2009), 4478-4486
  • [5] Weixing, L., and O. Boon-Teck, DC overvoltage control during loss of converter in multiterminal voltage-source converterbased HVDC (M-VSC-HVDC), IEEE Transactions on Power Delivery, 18 (2003), No. 3, 915-920
  • [6] Zhou K.L., and Wang D.W., Relationship between spacevector modulation and three-phase carrier-based PWM: A comprehensive analysis, IEEE Transactions On Industrial Electronics, 49 (2002), No. 1, 186-196
  • [7] Wang F., Sine-Triangle versus Space-Vector Modulation for Three-Level PWM Voltage-Source Inverters, IEEE Transactions On Industry Applications, 38 (2002), No. 2, 500- 506
  • [8] Guo-Qiang W., Zhi-Xin W., Control of HVDC-light transmission for offshore wind farms based on input-output feedback linearization and PSO, WSEAS Transactions on Systems, 9 (2010), No. 11, 1109-1119
  • [9] Isidori A., Nonlinear Control Systems, Germany: Springer- Verlag, 1989, Berlin
  • [10] Slotine J.E., and Li W., Applied Nonlinear Control, Englewood Cliffs, NJ: Prentice-Hall, 1991.
  • [11] Daizhan C., Applied Nonlinear Control, China Machine Press, China, 2009.
  • [12] Moharana A., and Dash P.K., Input-Output Linearization and Robust Sliding-Mode Controller for the VSC-HVDC Transmission Link, IEEE Transactions on Power Delivery, 25 (2010), No. 3, 1952-1961
  • [13] Tzann-Shin L., Input-output linearization and zero-dynamics control of three-phase AC/DC voltage-source converters, IEEE Transactions on Power Electronics, 18 (2003), No. 1, 11-22
  • [14] Jeong S., and Song S., Improvement of Predictive Current Control Performance Using Online Parameter Estimation in Phase Controlled Rectifier, IEEE Transactions On Power Electronics, 22 (2007), No. 5, 1820-1825
  • [15] Blasko V., Kaura V., A New Mathematical Model and Control of a Three-Phase AC-DC Voltage Source Converter, IEEE Transactions on Power Electronics, 12 (1997), No. 1, 116-123
  • [16] Burgos R.P., Wiechmann E.P., and Holtz J., Complex statespace modeling and nonlinear control of active front-end converters, IEEE Transactions on Industrial Electronics, 52 (2005), No. 2, 363-377
  • [17] Yongsug S., Tijeras V., and Lipo T.A., A Nonlinear Control of the Instantaneous Power in dq Synchronous Frame for PWM AC/DC Converter under Generalized Unbalanced Operating Conditions, IEEE Industry Applications Society Conference, 2 (2002), 1189-11496
  • [18] D.C. Lee, Advanced nonlinear control of three-phase PWM rectifiers, IEE Proceedings - Electric Power Applications, 147 (2000), No. 5, 361-366
  • [19] Holmes D., Martin D., Implementation of a direct digital predictive current controller for single and three phase voltage source inverters, IEEE IAS-96 Annual Meeting, San Diego,1996, 906-913
  • [20] Kebbati I., Hammou Y., Mansouri A., et al., Sliding mode control with a robust observer of induction motor, Przeglad Elektrotechniczny, 88 (2012), No. 1B, 193-197
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b36b89d1-7a4f-41ac-88e9-fb27c8dbfb6a
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