Power distribution systems (PDS) are increasingly complex and spread over long distances and in different locations. Given their radial configuration, the loads could be inserted at the same distances from the substation. This leads to multiple estimation of fault location (FL) and yields time consuming for iterative FL algorithms. In this article, we provide a novel practical approach to fault localization in order to defeat these limitations. The central idea of the proposed approach is to divide the multilateral distribution system into a possible number of mono-lateral sub systems (MLS) using a proposed communicating sensor. Next, we apply two different fault locator algorithms only to the defective MLS. The first variant of the approac...
Multi-tapped lines are common in integrated power systems and microgrids which supply variable loads...
This paper presents a novel accurate fault location technique for the radial unbalanced distribution...
This article proposes an alternative for low impedance shunt fault location in radial power distribu...
Power distribution systems (PDS) are increasingly complex and spread over long distances and in diff...
This paper presents a conceptual approach for eliminating the multiple estimation problem of impedan...
Fault occurrence on power system lines is an inevitable phenomenon. Therefore, mitigation of the res...
Abstract- This paper presents a new fault location algorithm for radial distribution systems with di...
The conventional approach for estimating the locations of transmission line faults has been to measu...
Abstract: The fault location techniques for power distribution systems (PDS) in use nowadays assume ...
In this paper, an extended impedance-based fault-location formulation for generalized distribution s...
The increase in the number of renewable energy generating facilities has transformed the electricity...
Abstract: This paper presents a new approach for accurate fault locating in radial cable distributio...
Fault location is close related to power service continuity. This task is more difficult in power di...
Abstract: The existing methods of fault location for distribution systems consider that the system h...
This paper presents a fault location technique for distribution systems. It is a two end impedance b...
Multi-tapped lines are common in integrated power systems and microgrids which supply variable loads...
This paper presents a novel accurate fault location technique for the radial unbalanced distribution...
This article proposes an alternative for low impedance shunt fault location in radial power distribu...
Power distribution systems (PDS) are increasingly complex and spread over long distances and in diff...
This paper presents a conceptual approach for eliminating the multiple estimation problem of impedan...
Fault occurrence on power system lines is an inevitable phenomenon. Therefore, mitigation of the res...
Abstract- This paper presents a new fault location algorithm for radial distribution systems with di...
The conventional approach for estimating the locations of transmission line faults has been to measu...
Abstract: The fault location techniques for power distribution systems (PDS) in use nowadays assume ...
In this paper, an extended impedance-based fault-location formulation for generalized distribution s...
The increase in the number of renewable energy generating facilities has transformed the electricity...
Abstract: This paper presents a new approach for accurate fault locating in radial cable distributio...
Fault location is close related to power service continuity. This task is more difficult in power di...
Abstract: The existing methods of fault location for distribution systems consider that the system h...
This paper presents a fault location technique for distribution systems. It is a two end impedance b...
Multi-tapped lines are common in integrated power systems and microgrids which supply variable loads...
This paper presents a novel accurate fault location technique for the radial unbalanced distribution...
This article proposes an alternative for low impedance shunt fault location in radial power distribu...