Simple reference-frame transformations allow to implement the method of Virtual Oscillator Control, originally conceived for AC microgrids, to parallel-connected converters in a DC microgrid network. As a result, based only on local measurements and without recourse to a communication link, the DC-DC converters in the microgrid share the load power in proportion to their power ratings without circulating currents, and may be readily interleaved. Simulations validate the proposals for a set of three half-bridge converters serving a common DC load
This paper proposes the inverter control strategy for multiple solar PV generation sources based on ...
Building from existing work on Virtual Oscillator Control (VOC), this reports details design, analys...
In this letter we propose a new distributed controlscheme, achieving current sharing and average vol...
Simple reference-frame transformations allow to implement the method of Virtual Oscillator Control, ...
In this paper, a power-frequency (P–ω) controller is presented for voltage source converters (VSC). ...
Inspired by the kinetics of wave phenomena in reaction-diffusion models of biological systems, we pr...
This paper proposed a novel control strategy based on a virtual resistance and a phase locked loop f...
In order to facilitate the further integration of distributed renewable generation into existing pow...
The power electronic-based converters, which are used as an interface between distributed generation...
This paper proposes a hierarchical control scheme which applies optimization method into DC microgri...
Microgrids are envisioned as building blocks of evolving power systems, where they have a potential ...
This work presents a literature review about control techniques for parallel connected power inverte...
In this paper, a nonlinear current-limiting droop controller is proposed to achieve accurate power s...
Power electronics based microgrids consist of a number of voltage source inverters (VSIs) operating ...
One of the most important challenges in controlling a Microgrid is to enable a multi-mode operation ...
This paper proposes the inverter control strategy for multiple solar PV generation sources based on ...
Building from existing work on Virtual Oscillator Control (VOC), this reports details design, analys...
In this letter we propose a new distributed controlscheme, achieving current sharing and average vol...
Simple reference-frame transformations allow to implement the method of Virtual Oscillator Control, ...
In this paper, a power-frequency (P–ω) controller is presented for voltage source converters (VSC). ...
Inspired by the kinetics of wave phenomena in reaction-diffusion models of biological systems, we pr...
This paper proposed a novel control strategy based on a virtual resistance and a phase locked loop f...
In order to facilitate the further integration of distributed renewable generation into existing pow...
The power electronic-based converters, which are used as an interface between distributed generation...
This paper proposes a hierarchical control scheme which applies optimization method into DC microgri...
Microgrids are envisioned as building blocks of evolving power systems, where they have a potential ...
This work presents a literature review about control techniques for parallel connected power inverte...
In this paper, a nonlinear current-limiting droop controller is proposed to achieve accurate power s...
Power electronics based microgrids consist of a number of voltage source inverters (VSIs) operating ...
One of the most important challenges in controlling a Microgrid is to enable a multi-mode operation ...
This paper proposes the inverter control strategy for multiple solar PV generation sources based on ...
Building from existing work on Virtual Oscillator Control (VOC), this reports details design, analys...
In this letter we propose a new distributed controlscheme, achieving current sharing and average vol...