Add to ORKGFault ride-through capability is one of the basic requirements for a large-scale wind farm. There are two aspects to fault ride-through: to continue power supply without breaking any part of the system and to resume normal operation after clearance of the fault. In this paper the transients of the doubly-fed induction generator is analyzed. The safe operating area characteristics of the IGBT converter are also considered. After this, the use of a high-power resistor as a traditional crowbar, DC-link braking resistor and a series dynamic resistor are discussed. From the discussion, a new protection control scheme, with a crowbar and a series dynamic resistor, is proposed. The new scheme is shown to reduce the rotor high current, maximize the...
The penetration levels of wind turbines (WTs) in power grid have significantly increased in the last...
Abstract—In this paper, a solution is described that makes it pos-sible for wind turbines using doub...
This paper presents a new control strategy for the rotor-side converter (RSC) of wind turbines (WTs)...
Fault ride-through capability is one of the basic requirements for a large-scale wind farm. There ar...
This paper proposes a control strategy of doubly fed induction generators (DFIGs) with new protectio...
This paper proposes a new converter protection method, primarily based on a series dynamic resistor ...
The paper considers the behaviour of the rotor current of a DFIG during a fault on the network. It i...
With the growth of wind energy penetration in electricity transmission grids, fault ride-through (FR...
The purposes of this article are to report on a study of fault ride-through (FRT) capability improve...
2010 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all...
The doubly fed induction generators (DFIGs) are used in almost 50% of the offshore and onshore wind ...
Abstract — Doubly Fed Induction Generator (DFIG) is popularly used in Wind Energy Generation Systems...
This paper proposes a new control technique to improve the fault-ride through capability of doubly f...
Abstract – This paper proposes a new control technique to improve the fault-ride through capability ...
This paper deals with a protection and control strategy to enhance the low voltage ride through capa...
The penetration levels of wind turbines (WTs) in power grid have significantly increased in the last...
Abstract—In this paper, a solution is described that makes it pos-sible for wind turbines using doub...
This paper presents a new control strategy for the rotor-side converter (RSC) of wind turbines (WTs)...
Fault ride-through capability is one of the basic requirements for a large-scale wind farm. There ar...
This paper proposes a control strategy of doubly fed induction generators (DFIGs) with new protectio...
This paper proposes a new converter protection method, primarily based on a series dynamic resistor ...
The paper considers the behaviour of the rotor current of a DFIG during a fault on the network. It i...
With the growth of wind energy penetration in electricity transmission grids, fault ride-through (FR...
The purposes of this article are to report on a study of fault ride-through (FRT) capability improve...
2010 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all...
The doubly fed induction generators (DFIGs) are used in almost 50% of the offshore and onshore wind ...
Abstract — Doubly Fed Induction Generator (DFIG) is popularly used in Wind Energy Generation Systems...
This paper proposes a new control technique to improve the fault-ride through capability of doubly f...
Abstract – This paper proposes a new control technique to improve the fault-ride through capability ...
This paper deals with a protection and control strategy to enhance the low voltage ride through capa...
The penetration levels of wind turbines (WTs) in power grid have significantly increased in the last...
Abstract—In this paper, a solution is described that makes it pos-sible for wind turbines using doub...
This paper presents a new control strategy for the rotor-side converter (RSC) of wind turbines (WTs)...