Natural flux minimisation technique for enhanced operation of doubly‐fed induction generator

Abstract: This paper presents a robust reference current generation technique for rotor side converter (RSC) control of a grid connected doubly-fed induction generator (DFIG) to eliminate the natural flux revolving in air gap implemented in the positive d-q reference frame. The objective of the scheme is to enhance the performance of the generator under grid unbalance by eliminating the double frequency content in the d-q axes stator flux without using double vector control. RSC is employed to minimise the oscillations … Show more

“…Consequently, the voltage and frequency may deviate so widely from the normal values that cascading outages and system separation may occur. The grid unbalance in WIPS may create severe oscillations in power, torque, and DC‐link voltage of WECS, which affect the performance of DFIG [8].…”

Analysis and enhancement of small‐signal stability on DFIG‐based wind integrated power system through the optimal design of linear quadratic regulator

“…Consequently, the voltage and frequency may deviate so widely from the normal values that cascading outages and system separation may occur. The grid unbalance in WIPS may create severe oscillations in power, torque, and DC‐link voltage of WECS, which affect the performance of DFIG [8].…”

Analysis and enhancement of small‐signal stability on DFIG‐based wind integrated power system through the optimal design of linear quadratic regulator

Modified Control Technique of DFIG for Power Quality Improvement

Modified grid side converter control technique for DFIG connected to nonlinear loads