High shares of power electronic inverters reduce system inertia which threatens frequency stability. New control schemes for inverters are required. Virtual synchronous machines (VSM) replicate the inertia and inherent voltage support of synchronous machines. High short-circuit currents however increase hardware cost. An extended VSM model and a strategy to reduce short-circuit currents while maintaining stability is presented. System studies and experiments demonstrate that VSM ensure stability in the system split scenario
We prove that virtual friction control can stabilize a power grid containing several virtual synchro...
Renewable energy such as solar or wind energy provides new possibilities to meet the world's energy ...
This paper presents a comparison of small-signal dynamics for a current controlled Virtual Synchrono...
The paper investigates the stability of a power system with synchronverters. A synchronverter is a c...
In recent years, the penetration of renewable power generations into the electrical grid has substan...
The risk of oscillatory instability introduced by virtual synchronous machines (VSM) control in isol...
The adoption of virtual synchronous machine (VSM) schemes for the control of power converters is gai...
A virtual synchronous generator (VSG) control for converters has been proposed as a method to provid...
International audienceMicrogrids which still insure the system’s stability. In this paper an improve...
This paper evaluates the operation of an HVDC interconnection for providing virtual inertia and the ...
Virtual inertia control is a methodology to make inverter-based resources (IBR) behave like a synchr...
We prove that virtual friction can stabilize a power grid containing several virtual synchronous mac...
With massive integration of power electronic interfaced renewables including wind and solar power, o...
As the share of variable renewable energy in the power system rises, the demand for balancing techno...
The advent of multilevel inverters brings flexibility in the microgrids' design for numerous new app...
We prove that virtual friction control can stabilize a power grid containing several virtual synchro...
Renewable energy such as solar or wind energy provides new possibilities to meet the world's energy ...
This paper presents a comparison of small-signal dynamics for a current controlled Virtual Synchrono...
The paper investigates the stability of a power system with synchronverters. A synchronverter is a c...
In recent years, the penetration of renewable power generations into the electrical grid has substan...
The risk of oscillatory instability introduced by virtual synchronous machines (VSM) control in isol...
The adoption of virtual synchronous machine (VSM) schemes for the control of power converters is gai...
A virtual synchronous generator (VSG) control for converters has been proposed as a method to provid...
International audienceMicrogrids which still insure the system’s stability. In this paper an improve...
This paper evaluates the operation of an HVDC interconnection for providing virtual inertia and the ...
Virtual inertia control is a methodology to make inverter-based resources (IBR) behave like a synchr...
We prove that virtual friction can stabilize a power grid containing several virtual synchronous mac...
With massive integration of power electronic interfaced renewables including wind and solar power, o...
As the share of variable renewable energy in the power system rises, the demand for balancing techno...
The advent of multilevel inverters brings flexibility in the microgrids' design for numerous new app...
We prove that virtual friction control can stabilize a power grid containing several virtual synchro...
Renewable energy such as solar or wind energy provides new possibilities to meet the world's energy ...
This paper presents a comparison of small-signal dynamics for a current controlled Virtual Synchrono...