참고문헌 (31)

1. Muller S , Deicke M , De Doncker RW . Doubly fed induction generator systems for wind turbines . IEEE Industry Applications Magazine 2002 ; 8 ( 3 ): 26 – 33 . 

   상세보기

2. Eriksen PB , Ackermann T , Abildgaard H , Smith P . System operation with high wind penetration . IEEE Power and Energy Magazine 2005 ; 3 ( 6 ): 65 – 74 . 

   상세보기

3. Ramtharan G , Ekanayake JB , Jenkins N . Frequency support from doubly fed induction generator wind turbines . IET Renewable Power Generation 2007 ; 1 ( 1 ): 3 – 9 . 

   상세보기

4. Blaabjerg F , Chen Z . Power electronics as an enabling technology for renewable energy integration . Journal of Power Electronics 2003 ; 3 ( 2 ): 81 – 89 . 

   원문보기 상세보기

5. Muller S , Deicke M , Doncker RW . Modeling and control of brushless doubly fed induction generators in wind energy applications . IEEE Transactions on Industrial Electronics 2009 ; 56 ( 10 ): 4220 – 4228 . 

6. Yamamoto M , Motoyoshi O . Active and reactive power control for doubly‐fed wound rotor induction generator . IEEE Transactions on Power Electronics 1991 ; 6 ( 4 ): 624 – 629 . 

   상세보기

7. Abad G , Lopez J , Rodriguez M , Marroyo L , Iwanski G . Fed Induction Machine: Modeling and Control for Wind Energy Generation Applications 2011 ; Hoboken, New Jersey: John Wiley and Sons. 

8. Xiang D , Ran L , Tavner PJ , Yang S . Control of a doubly fed induction generator in a wind turbine during grid fault ride‐through . IEEE Transactions on Energy Conversion 2006 ; 21 ( 3 ): 652 – 662 . 

   상세보기

9. Xiao S , Geng H , Zhou H , Yang G . Analysis of the control limit for rotor‐side converter of doubly fed induction generator‐based wind energy conversion system under various voltage dips . IET Renewable Power Generation 2013 ; 7 ( 1 ): 71 – 81 . 

   상세보기

10. Yao J , Li H , Liao Y , Chen Z . An improved control strategy of limiting the DC‐link voltage fluctuation for a doubly fed induction wind generator . IEEE Transactions on Power Electronics 2008 ; 23 ( 3 ): 1205 – 1213 . 

    상세보기

11. Pena R , Clare JC , Asher GM . Doubly fed induction generator using back‐to‐back PWM converters and its application to variable speed wind‐energy generation . IEE Proceedings of Electric Power Applications 1996 ; 143 ( 3 ): 234 – 241 . 

12. Shao S , Abdi E , Barati F , McMahon R . Stator‐flux‐oriented vector control for brushless doubly fed induction generator . IEEE Transactions on Industrial Electronics 2009 ; 56 ( 10 ): 4220 – 4228 . 

    상세보기

13. Li DD , Chen C . Decoupled control of speed and reactive power of doubly‐fed induction generator. Proceedings of 2004 International Conference on Power System Technology, Singapore , 2004 ; 356 – 360 . 

14. Durrant M , Werner H , Abbott K . Synthesis of multi‐objective controller for a VSC HVDC terminal using LMIs. Proceedings of 43rd IEEE Conference on Decision and Control, Nassau, Bahamas , 2004 ; 4: 4473 – 4478 . 

15. Karthikeyan A , Naguru NR , Nagamani C , Ilango GS . Feedback linearization control based power control of grid connected DFIG with grid synchronization. Proceedings of 2011 10th International Conference on Environment and Electrical Engineering, Rome, Italy , 2011 ; 1 – 4 . 

16. Mauricio JM , Leon AE , Gomez‐Exposito A , Solsona JA . An adaptive nonlinear controller for DFIM‐based wind energy conversion systems . IEEE Transactions on Energy Conversion 2008 ; 23 ( 4 ): 1025 – 1035 . 

    상세보기

17. Feng W , Xiao‐Ping Z , Ping J , Sterling MJH . Decentralized nonlinear control of wind turbine with doubly fed induction generator . IEEE Transactions on Power Systems 2008 ; 23 ( 2 ): 613 – 621 . 

    상세보기

18. Krstic M , Kanellakopoulos I , Kokotovic P . Nonlinear and Adaptive Control Design 1995 ; Hoboken, New Jersey: John Wiley and Sons. 

19. Karthikeyan A , Kummara SK , Nagamani C , Ilango GS . Power control of grid connected doubly fed induction generator using adaptive backstepping approach. Proceedings of 2011 10th International Conference on Environment and Electrical Engineering, Rome, Italy , 2011 ; 1 – 4 . 

20. Ruan SY , Li GJ , Jiao XH , Sun YZ , Lie TT . Adaptive control design for VSC‐HVDC systems based on backstepping method . Electric Power Systems Research 2007 ; 77 : 559 – 565 . 

    상세보기

21. Martinez MI , Tapia G , Susperregui A , Camblong H . Sliding‐mode control for DFIG rotor‐and grid‐side converters under unbalanced and harmonically distorted grid voltage . IEEE Transactions on Energy Conversion 2012 ; 27 ( 2 ): 328 – 339 . 

    상세보기

22. Drid S , Tadjine M , Nait‐Said MS . Robust backstepping vector control for the doubly fed induction motor . IET Control Theory and Applications 2007 ; 1 ( 4 ): 861 – 868 . 

    상세보기

23. Wang GD , Wai RJ , Liao Y . Design of backstepping power control for grid‐side converter of voltage source converter‐based high‐voltage dc wind power generation system . IET Renewable Power Generation 2013 ; 7 ( 2 ): 118 – 133 . 

    상세보기

24. Martinez MI , Susperregui A , Tapia G , Xu L . Sliding‐mode control of a wind turbine‐driven double‐fed induction generator under non‐ideal grid voltages . IET Renewable Power Generation 2013 ; 7 ( 4 ): 370 – 379 . 

    상세보기

25. Susperregui A , Itsaso Martinez M , Tapia G , Vechiu I . Second‐order sliding‐mode controller design and tuning for grid synchronisation and power control of a wind turbine‐driven doubly fed induction generator . IET Renewable Power Generation 2013 ; 7 ( 5 ): 540 – 551 . 

26. EN50160 . Voltage Characteristics of Electricity Supplied by Public Distribution System. 2007 . 

27. Kiani M , Lee WJ . Effects of voltage unbalance and system harmonics on the performance of doubly‐fed induction wind generators . IEEE Transactions on Industry Applications 2010 ; 46 ( 2 ): 562 – 568 . 

    상세보기

28. Abad G , Rodriguez M , Iwanski G , Poza J . Direct power control of doubly‐fed‐induction‐generator‐based wind turbines under unbalanced grid voltage . IEEE Transactions on Power Electronics 2010 ; 25 ( 2 ): 442 – 452 . 

    상세보기

29. Akhmatov V , Knudsen H . An aggregate model of a grid‐connected, large‐scale, offshore wind farm for power stability investigations‐importance of windmill mechanical system . International Journal of Electrical Power & Energy Systems 2002 ; 24 ( 9 ): 709 – 717 . 

    상세보기

30. Heier S . Grid Integration of Wind Energy Conversion Systems 2006 ; Hoboken, New Jersey: John Wiley and Sons. 

31. Xu L , Yao L , Sasse C . Grid integration of large DFIG‐based wind farms using VSC transmission . IEEE Transactions on Power Systems 2007 ; 22 ( 3 ): 976 – 984 . 

    상세보기