Open AccessDIRECT TORQUE CONTROL FOR DOUBLY FED INDUCTION MACHINE-BASED WIND TURBINES UNDER VOLTAGES DIPS AND WITHOUT CROWBAR PROTECTION
Author(s) -
T. Muni Prakash,
SK. SHAKEER AHHAMAD
Publication year - 2013
Publication title -
international journal of electronics and electical engineering
Language(s) - English
Resource type - Journals
ISSN - 2231-5284
DOI - 10.47893/ijeee.2013.1067
Subject(s) - crowbar , wind power , turbine , rotor (electric) , torque , control theory (sociology) , stator , voltage , direct torque control , induction generator , automotive engineering , doubly fed electric machine , computer science , engineering , ac power , electrical engineering , control (management) , physics , induction motor , aerospace engineering , artificial intelligence , thermodynamics
This letter proposes a rotor flux amplitude reference generation strategy for doubly fed induction machine based wind turbines. It is specially designed to address perturbations, such as voltage dips, keeping controlled the torque of the wind turbine, and considerably reducing the stator and rotor over currents during faults. In addition, a direct torque control strategy that provides fast dynamic response accompanies the overall control of the wind turbine. Despite the fact that the proposed control does not totally eliminate the necessity of the typical crowbar protection for this kind of turbines, it eliminates the activation of this protection during low voltage dips.. ** ) proposed reference generation. (a) Stator voltage. (b) Torque*. (c) Stator and rotor fluxes*. (d) Rotor currents*. (e) Stator currents*. (f) DC bus voltage**. (g) Torque**. (h) Stator and rotor fluxes**. (i) Rotor currents**. (j) Stator currents**
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