A new local current-based fast high impedance fault (HIF) detection scheme for DC microgrid clusters using mathematical morphology (MM) is proposed in this paper. The proposed strategy consists of two MM based parts. The first part is MM erosion filtering to extract the current signals and its components to extract the differential feature vector. The second part is MM regional maxima, for defining a determinative value to detect faults in a line segment by the lowest possible time. This scheme also uses local measured values to eliminate the need for communication channels, which provide a low cost, reliable, and fast fault detection method for DC microgrid clusters. Moreover, to provide an accurate HIF detection method, the accurate HIF m...
A new DC fault current limiter (FCL)‐based circuit breaker (CB) for DC microgrid (MG) clusters is pr...
Since the penetration level of the inverter-based distributed generations (IBDGs) into microgrids (M...
Voltage and frequency stability are highly important for reliable performance of smart grids. In gri...
A new local current-based fast high impedance fault (HIF) detection scheme for DC microgrid clusters...
DC faults can create serious damages if not detected and isolated in a short time. This paper propos...
This study presents a fast, secure and reliable algorithm for the detection and classification of po...
This paper presents a new detection methodology for High Impedance Faults (HIFs) in power distributi...
Secure and reliable detection and identification of High Impedance faults (HIFs) on a passive unidir...
With the increasing number of DC microgrids, DC microgrid clusters are emerging as a cost-effective ...
Use of Mathematical Morphology (MM) based filters to detect faults in power systems have been discus...
Accurate locating of the faulty section is desired in DC microgrid due to the presence of power elec...
The problem of distributed fast fault detection for a direct current (dc) microgrid that is composed...
Inverter-dominated microgrids impose significant challenges on the distribution network, as inverter...
A fault detection, identification, and location approach is proposed and studied in this paper. This...
This paper presents an intelligent algorithm using a Takagi Sugeno-Kang (TSK) fuzzy modeling approac...
A new DC fault current limiter (FCL)‐based circuit breaker (CB) for DC microgrid (MG) clusters is pr...
Since the penetration level of the inverter-based distributed generations (IBDGs) into microgrids (M...
Voltage and frequency stability are highly important for reliable performance of smart grids. In gri...
A new local current-based fast high impedance fault (HIF) detection scheme for DC microgrid clusters...
DC faults can create serious damages if not detected and isolated in a short time. This paper propos...
This study presents a fast, secure and reliable algorithm for the detection and classification of po...
This paper presents a new detection methodology for High Impedance Faults (HIFs) in power distributi...
Secure and reliable detection and identification of High Impedance faults (HIFs) on a passive unidir...
With the increasing number of DC microgrids, DC microgrid clusters are emerging as a cost-effective ...
Use of Mathematical Morphology (MM) based filters to detect faults in power systems have been discus...
Accurate locating of the faulty section is desired in DC microgrid due to the presence of power elec...
The problem of distributed fast fault detection for a direct current (dc) microgrid that is composed...
Inverter-dominated microgrids impose significant challenges on the distribution network, as inverter...
A fault detection, identification, and location approach is proposed and studied in this paper. This...
This paper presents an intelligent algorithm using a Takagi Sugeno-Kang (TSK) fuzzy modeling approac...
A new DC fault current limiter (FCL)‐based circuit breaker (CB) for DC microgrid (MG) clusters is pr...
Since the penetration level of the inverter-based distributed generations (IBDGs) into microgrids (M...
Voltage and frequency stability are highly important for reliable performance of smart grids. In gri...