Research Paper | Electrical & Electronics Engineering | India | Volume 2 Issue 7, July 2013
Controlling of Rotor Flux for Doubly Fed Induction Machine-Based Wind Turbines under Voltages Dips and without Crowbar Protection
P.Murali, T. Muni Prakash
This paper proposes a rotor flux amplitude reference generation strategy for doubly fed induction machine based wind turbines. It is 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.
Keywords: under voltage dips, Induction generator protection, Crowbar protection, direct torque control, doubly fed induction machine, reference flux generation strategy
Edition: Volume 2 Issue 7, July 2013
Pages: 344 - 346
How to Cite this Article?
P.Murali, T. Muni Prakash, "Controlling of Rotor Flux for Doubly Fed Induction Machine-Based Wind Turbines under Voltages Dips and without Crowbar Protection", International Journal of Science and Research (IJSR), https://www.ijsr.net/search_index_results_paperid.php?id=1201342, Volume 2 Issue 7, July 2013, 344 - 346
110 PDF Views | 96 PDF Downloads
Similar Articles with Keyword 'direct torque control'
Research Paper, Electrical & Electronics Engineering, India, Volume 2 Issue 7, July 2013
Pages: 344 - 346Controlling of Rotor Flux for Doubly Fed Induction Machine-Based Wind Turbines under Voltages Dips and without Crowbar Protection
P.Murali, T. Muni Prakash
Research Paper, Electrical & Electronics Engineering, India, Volume 2 Issue 8, August 2013
Pages: 462 - 465Artificial Neural Network Based Speed and Torque Control of Three Phase Induction Motor
Amanulla, Manjunath Prasad