Add to ORKGThis paper presents a technique for damping of oscillations in ac grids by control of VSC-HVDC links. The effect of the proposed controller is equivalent to a mechanical friction between two asynchronous networks (modelled as rotating masses) interconnected by the HVDC link. Therefore, the dynamics of the ac grids will be coupled, and the virtual friction gain can be utilised to effectively damp frequency oscillations in any of the ac networks. A centralised and a decentralised implementation of the proposed controller are presented. It is shown that both implementations of the virtual friction-based damping can effectively attenuate poorly damped frequency oscillations in both of the interconnected ac grids and that the decentralised imple...
We prove that virtual friction can stabilize a power grid containing several virtual synchronous mac...
This paper investigates the grid support strategy of a VSC-HVDC link for the DFIG-based wind farm in...
The damping of multi-modal oscillations through supplementary control of multiple HVDC systems is pr...
This paper presents a technique for damping of oscillations in ac grids by control of VSC-HVDC links...
This paper proposes a control scheme for multi-terminal HVDC (MTDC) interconnections that introduces...
This paper presents a control approach for HVDC interconnections that provides damping of frequency ...
Two different methods for implementing inertial damping on a Virtual Synchronous Machine (VSM) and t...
International audienceThis paper addresses the problem of damping inter-area oscillations via power ...
This paper proposes a novel bilateral inertia and damping emulation (BIDE) control scheme for VSC-HV...
The forced switching converters are the kernel of the modern paradigm of VSC-HVDC system. It is wide...
In this paper, damping power system oscillations with active power and ac voltage modulations of VSC...
This paper evaluates the operation of an HVDC interconnection for providing virtual inertia and the ...
International audienceIn this paper, we consider the particular situation of a HVDC link inserted in...
We prove that virtual friction control can stabilize a power grid containing several virtual synchro...
The adoption of virtual synchronous machine (VSM) schemes for the control of power converters is gai...
We prove that virtual friction can stabilize a power grid containing several virtual synchronous mac...
This paper investigates the grid support strategy of a VSC-HVDC link for the DFIG-based wind farm in...
The damping of multi-modal oscillations through supplementary control of multiple HVDC systems is pr...
This paper presents a technique for damping of oscillations in ac grids by control of VSC-HVDC links...
This paper proposes a control scheme for multi-terminal HVDC (MTDC) interconnections that introduces...
This paper presents a control approach for HVDC interconnections that provides damping of frequency ...
Two different methods for implementing inertial damping on a Virtual Synchronous Machine (VSM) and t...
International audienceThis paper addresses the problem of damping inter-area oscillations via power ...
This paper proposes a novel bilateral inertia and damping emulation (BIDE) control scheme for VSC-HV...
The forced switching converters are the kernel of the modern paradigm of VSC-HVDC system. It is wide...
In this paper, damping power system oscillations with active power and ac voltage modulations of VSC...
This paper evaluates the operation of an HVDC interconnection for providing virtual inertia and the ...
International audienceIn this paper, we consider the particular situation of a HVDC link inserted in...
We prove that virtual friction control can stabilize a power grid containing several virtual synchro...
The adoption of virtual synchronous machine (VSM) schemes for the control of power converters is gai...
We prove that virtual friction can stabilize a power grid containing several virtual synchronous mac...
This paper investigates the grid support strategy of a VSC-HVDC link for the DFIG-based wind farm in...
The damping of multi-modal oscillations through supplementary control of multiple HVDC systems is pr...