Stepwise Voltage Drop and Transient Current Control Strategies to Enhance Fault Ride-Through Capability of MMC-HVDC Connected DFIG Wind Farms
Meng Zhu, Weixing Li, Xiaodong Liang, Shiyun Xu, Baorong Zhou, Shen Yan
Abstract
This paper proposes advanced control strategies to enhance fault ride-through capability of modular multilevel converter-based high voltage direct current (MMC-HVDC) connected doubly-fed induction generator (DFIG)-based wind farms. A stepwise voltage drop control is proposed for the sending-end MMC to suppress dc line voltage fluctuations by demagnetizing DFIGs. Meanwhile, a modified transient current control is proposed for the DFIG, where a voltage-dependent active current control is integrated into the rotor-side converter to improve synchronization stability of the converter, and a feedforward transient stator current control structure is designed to eliminate dc component in the stator current. The proposed control strategies are validated by comparing with three typical methods through time-domain simulations.