Yang Ling

TL;DR: A virtual inertia control strategy through bidirectional grid-connected converters (BGCs) analogized with virtual synchronous machine (VSM) is proposed to enhance the inertia of the DC-MG, and to restrain the dc bus voltage fluctuation.

TL;DR: The voltage-controlled VSG is more suitable than the current-controlledVSG for grid-connected renewable energy generation in an ultraweak grid from the point of view of system stability and experiment results validate the stability analysis.

TL;DR: The stability analysis results show that the TGCI loses stability easily, whereas the VSG still works well without PLL restrictions under an ultraweak grid or with a large number of inverters connected to the grid.

TL;DR: An inverter-current-feedback reso-nance-suppression method without additional sensors is proposed to reduce resonance-frequency offset and grid-inductance effect due to its unattenuated damping characteristic under high-frequency bandwidth and a robust ICFRS is further proposed to improve system stability by maintaining a positive resistance regardless of grid- Inductance variation.

TL;DR: A virtual phase-lead impedance stability control strategy aiming at rectifier station can effectively mitigate the dc-side oscillation of the VSC–HVDC system without affecting the load performance of the inverter station.