The paper deals with the possibility of using the distribution line carrier (DLC) in order to prevent dispersed generation islanding. The feasibility of this technology applied to MV networks has been investigated from a theoretical as well as experimental point of view. A multiconductor matrix procedure based on bus admittance matrix allows us to predict the high frequency behaviour of MV lines (overhead and cable): the signal strength can be verified at any section of MV networks. Moreover two measurement campaigns have been performed on real MV networks in order to validate the theoretical results
As the contribution of dispersed or distributed energy resources (DER) to the electric power product...
Islanding condition takes place when a distributed generator (DG) continues to power a part of the g...
The high penetration of distributed generation in distribution grids and the development of microgri...
The paper deals with the possibility of using the distribution line carrier (DLC) in order to preven...
Dispersed generation connected to distribution system can supply unintentional system islands, isola...
This paper deals with the analysis of carrier signal transmission in medium-voltage (MV) distributio...
The growing development of Dispersed Generation drives to a novel management of distribution netwo...
The paper shows the great possibilities offered by PLC applied to the medium voltage power networks....
Distribution systems are generally radial in nature, characterized by a single source feeding a numb...
Operation of dispersed generation (DG) connected to the distribution network presents several diffic...
In this paper a realistic medium voltage (MV) network with four different distributed generation tec...
The recent growing diffusion of dispersed generation in low voltage (LV) distribution networks is en...
Islanding is considered important problem that faces distributed generation. This problem occurs whe...
International audienceThis work is related to the protection system of distribution networks. Radial...
As PV deployment levels increase, loss of mains detection, or islanding detection, has again arisen ...
As the contribution of dispersed or distributed energy resources (DER) to the electric power product...
Islanding condition takes place when a distributed generator (DG) continues to power a part of the g...
The high penetration of distributed generation in distribution grids and the development of microgri...
The paper deals with the possibility of using the distribution line carrier (DLC) in order to preven...
Dispersed generation connected to distribution system can supply unintentional system islands, isola...
This paper deals with the analysis of carrier signal transmission in medium-voltage (MV) distributio...
The growing development of Dispersed Generation drives to a novel management of distribution netwo...
The paper shows the great possibilities offered by PLC applied to the medium voltage power networks....
Distribution systems are generally radial in nature, characterized by a single source feeding a numb...
Operation of dispersed generation (DG) connected to the distribution network presents several diffic...
In this paper a realistic medium voltage (MV) network with four different distributed generation tec...
The recent growing diffusion of dispersed generation in low voltage (LV) distribution networks is en...
Islanding is considered important problem that faces distributed generation. This problem occurs whe...
International audienceThis work is related to the protection system of distribution networks. Radial...
As PV deployment levels increase, loss of mains detection, or islanding detection, has again arisen ...
As the contribution of dispersed or distributed energy resources (DER) to the electric power product...
Islanding condition takes place when a distributed generator (DG) continues to power a part of the g...
The high penetration of distributed generation in distribution grids and the development of microgri...