A novel approach for crowbar resistance determination for doubly fed induction generators in wind energy conversion systems

“…The crowbar resistance is employed in this study to prevent excessive currents from going through the stator, rotor, and power electronic converters, as well as to defend against DC-link capacitor voltage increases [20]. When a fault occurs, the converters are disconnected and bypassed to protect them, and instead of the power electronic converters and DC-link capacitor, a crowbar resistor is connected to the slip rings of the rotor windings [21]. The pitch angle control is also used to protect the generator speed from acceleration by reducing the wind turbine's mechanical power in the event of a grid fault [22][23][24].…”

Blades Pitch Angle Control and Crowbar Protection of a Wind Turbine using Adaptive Neuro-Fuzzy Inference System at Severe Faulty Conditions

“…The crowbar resistance is employed in this study to prevent excessive currents from going through the stator, rotor, and power electronic converters, as well as to defend against DC-link capacitor voltage increases [20]. When a fault occurs, the converters are disconnected and bypassed to protect them, and instead of the power electronic converters and DC-link capacitor, a crowbar resistor is connected to the slip rings of the rotor windings [21]. The pitch angle control is also used to protect the generator speed from acceleration by reducing the wind turbine's mechanical power in the event of a grid fault [22][23][24].…”

Blades Pitch Angle Control and Crowbar Protection of a Wind Turbine using Adaptive Neuro-Fuzzy Inference System at Severe Faulty Conditions

Enhancing FRT capability of DFIG based on RC-crowbar considering the resonance and matching control strategies for different fault degrees

Enhancing LVRT capability of DFIG using cooperative control of BTFCL and RPC