International audienceDue to its current limitation, Inverter-interfaced Distributed Generation (IIDG) is supposed to have little impact on protection system of distribution networks. However, in case of high power IIDG, the situation could be changed. This paper aims to show situations in which IIDG could provoke false tripping to overcurrent protections along distribution feeders. Proposed solution is to provide directional function to these protections. This function is based on local algorithms and does not require voltage sensors (to reduce the cost). Another part of this work is to implement the method of symmetrical components in grid with presence of IIDG
International audienceIn this study, algorithms for directional relays using only current measuremen...
Over-current protection is principally intended to counteract excessive current in power systems. In...
New protection methods are required to protect a distribution system when supplied by current limite...
International audienceDue to its current limitation, Inverter-interfaced Distributed Generation (IID...
International audienceRadial distribution networks are mainly protected with overcurrent relays, whi...
International audienceNowadays, with the presence of Distributed Generators (DGs) in the medium volt...
As the yearly electric energy demand grows, there is a significant increase in the penetration of di...
Protection system is used to protect components against fault as fast as possible and also to minimi...
In recent years the amount of distributed generation(DG) in distribution systems have increased. Thi...
This paper proposes a new approach to the distributed generation system protection coordination base...
The increasing penetration of distributed generation (DG) in distribution systems has resulted in a ...
This research focuses on the protection of MV distribution networks with Distributed Generators (DGs...
Abstract — Overcurrent relays are widely used for protection of power systems, directional ones for ...
Protection of a distribution network in the presence of distributed generators (DGs) using overcurre...
Distribution networks are inherently radial and passive owing to the ease of operation and unidirect...
International audienceIn this study, algorithms for directional relays using only current measuremen...
Over-current protection is principally intended to counteract excessive current in power systems. In...
New protection methods are required to protect a distribution system when supplied by current limite...
International audienceDue to its current limitation, Inverter-interfaced Distributed Generation (IID...
International audienceRadial distribution networks are mainly protected with overcurrent relays, whi...
International audienceNowadays, with the presence of Distributed Generators (DGs) in the medium volt...
As the yearly electric energy demand grows, there is a significant increase in the penetration of di...
Protection system is used to protect components against fault as fast as possible and also to minimi...
In recent years the amount of distributed generation(DG) in distribution systems have increased. Thi...
This paper proposes a new approach to the distributed generation system protection coordination base...
The increasing penetration of distributed generation (DG) in distribution systems has resulted in a ...
This research focuses on the protection of MV distribution networks with Distributed Generators (DGs...
Abstract — Overcurrent relays are widely used for protection of power systems, directional ones for ...
Protection of a distribution network in the presence of distributed generators (DGs) using overcurre...
Distribution networks are inherently radial and passive owing to the ease of operation and unidirect...
International audienceIn this study, algorithms for directional relays using only current measuremen...
Over-current protection is principally intended to counteract excessive current in power systems. In...
New protection methods are required to protect a distribution system when supplied by current limite...