In this paper, a power-frequency (P–ω) controller is presented for voltage source converters (VSC). The approach is intended for multiple parallel VSCsforming a microgrid operating in both grid-connected and islanded modes. The proposed controller allows a VSC to mimic the operation of a synchronous generator (SG) by implementing the swing equation of SG with a primaryfrequency controller. In addition, a generalized model of the active power generation dynamics is developed in order to analyze the stability and to design the main control parameters. In contrast with the conventional droop controlmethod, the proposed controller improves the close-loop system dynamic response without changing the frequency accuracy. The obtained results show ...
Since the concept that inverters can be controlled to behave like a synchronous generator has been p...
©2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In this paper, a novel Power-Frequency Droop Control (PFDC) is introduced to perfectly bring back th...
The rapid growth in renewable energy-based distributed generation has raised serious concerns about ...
This paper proposed a novel control strategy based on a virtual resistance and a phase locked loop f...
Multiple power converters based on the droop controllers have been used widely in the microgrid (MG)...
This research focuses on two promising control strategies for integrating power-electronic-based ren...
Power electronics based MicroGrids consist of a number of voltage source inverters (VSIs) operating ...
To aim at the defects of the traditional VSG (virtual synchronous generator) control schemes to only...
In order to facilitate the further integration of distributed renewable generation into existing pow...
Renewable energy sources such as photo-voltaic and wind energy are integrating very rapidly in power...
Aiming for integration of a large-scale of distributed generators (DGs) such as photovoltaic into th...
Simple reference-frame transformations allow to implement the method of Virtual Oscillator Control, ...
In recent years, the penetration of renewable power generations into the electrical grid has substan...
20th Power Systems Computation Conference (PSCC), University College Dublin, Ireland, 11-15 June 201...
Since the concept that inverters can be controlled to behave like a synchronous generator has been p...
©2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In this paper, a novel Power-Frequency Droop Control (PFDC) is introduced to perfectly bring back th...
The rapid growth in renewable energy-based distributed generation has raised serious concerns about ...
This paper proposed a novel control strategy based on a virtual resistance and a phase locked loop f...
Multiple power converters based on the droop controllers have been used widely in the microgrid (MG)...
This research focuses on two promising control strategies for integrating power-electronic-based ren...
Power electronics based MicroGrids consist of a number of voltage source inverters (VSIs) operating ...
To aim at the defects of the traditional VSG (virtual synchronous generator) control schemes to only...
In order to facilitate the further integration of distributed renewable generation into existing pow...
Renewable energy sources such as photo-voltaic and wind energy are integrating very rapidly in power...
Aiming for integration of a large-scale of distributed generators (DGs) such as photovoltaic into th...
Simple reference-frame transformations allow to implement the method of Virtual Oscillator Control, ...
In recent years, the penetration of renewable power generations into the electrical grid has substan...
20th Power Systems Computation Conference (PSCC), University College Dublin, Ireland, 11-15 June 201...
Since the concept that inverters can be controlled to behave like a synchronous generator has been p...
©2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In this paper, a novel Power-Frequency Droop Control (PFDC) is introduced to perfectly bring back th...