Damping torque coefficient analysis of PMSG‐based WT with VSG control considering wind turbine dynamics

Abstract: This paper expands the damping torque coefficient analysis (DTCA) for studying the small‐signal stability of permanent magnet synchronous generator (PMSG)‐based wind turbine (WT) under virtual synchronous generator (VSG) control with consideration of WT dynamics. Firstly, the typical VSG is implemented in the grid‐side voltage source converter (GSVSC), which enables selfsynchronization without phase‐locked loop (PLL). The maximum power point track (MPPT) algorithms are utilized to give the power reference for … Show more

“…A full-converter wind turbine generator (WTG) is modelled to represent the wind power generation, whose modular structure connected to grid system is shown in Figure 5. The WTGs are connected to the system via back-to-back converters at generation buses [30,31]. And the scaling component is used to increase power level of WTG to model equivalent wind farm.…”

Operational resilience metrics for power systems with penetration of renewable resources

“…A full-converter wind turbine generator (WTG) is modelled to represent the wind power generation, whose modular structure connected to grid system is shown in Figure 5. The WTGs are connected to the system via back-to-back converters at generation buses [30,31]. And the scaling component is used to increase power level of WTG to model equivalent wind farm.…”

Operational resilience metrics for power systems with penetration of renewable resources

Frequency Stability Analysis of Grid-Forming PMSG Based on Virtual Synchronous Control

Impact of DC-Link Voltage Control on Torsional Vibrations in Grid-Forming PMSG Wind Turbines