Since the penetration level of the inverter-based distributed generations (IBDGs) into microgrids (MGs) is increasing, the protection issues of such networks have become more challenging. The present work aims to design a protection framework for fault detection and classification in IBDG dominated MGs. In the proposed approach, the current waveforms measured from one end of the protected lines are processed using superimposed components. Then, the faults are identified using the Euclidean distance concept. A Pearson correlation coefficient-based approach is also developed to characterize the faulty phases in the proposed fault classification unit. Furthermore, an auxiliary index is defined to discriminate load change conditions from the fa...
There is a large difference in fault current level between the GC and IS mode for a microgrid (MG) w...
An important challenge in protection of a microgrid is the process of fault detection, considering t...
The protection design philosophy of distribution networks is predicated on the inherent radiality th...
Since the penetration level of the inverter-based distributed generations (IBDGs) into microgrids (M...
With the integration of distributed generation (DG) into a microgrid, fault detection has become a m...
The new challenge to protective relaying in distribution networks (DNs), due to the integration of d...
Protecting an inverter-dominated microgrid is challenging for the traditional overcurrent protection...
When faults occur in the microgrids, high frequency transients will be superimposed on the system cu...
© 2018 IEEE Microgrids mainly rely on distributed energy resources (DER) unable to generate electric...
Traditional protection methods such as over-current or under-voltage methods are unreliable in inver...
Nowadays, the use of distributed generation (DG) has increased because of benefits such as increased...
Large deployments of Distributed Generators (DGs) have substantial impacts on the structure of exist...
The protection problems in microgrid effect the reliability of the power system caused due to high d...
The deployment of distributed generators (DGs) gives rise to several challenges for a microgrid or c...
DC faults can create serious damages if not detected and isolated in a short time. This paper propos...
There is a large difference in fault current level between the GC and IS mode for a microgrid (MG) w...
An important challenge in protection of a microgrid is the process of fault detection, considering t...
The protection design philosophy of distribution networks is predicated on the inherent radiality th...
Since the penetration level of the inverter-based distributed generations (IBDGs) into microgrids (M...
With the integration of distributed generation (DG) into a microgrid, fault detection has become a m...
The new challenge to protective relaying in distribution networks (DNs), due to the integration of d...
Protecting an inverter-dominated microgrid is challenging for the traditional overcurrent protection...
When faults occur in the microgrids, high frequency transients will be superimposed on the system cu...
© 2018 IEEE Microgrids mainly rely on distributed energy resources (DER) unable to generate electric...
Traditional protection methods such as over-current or under-voltage methods are unreliable in inver...
Nowadays, the use of distributed generation (DG) has increased because of benefits such as increased...
Large deployments of Distributed Generators (DGs) have substantial impacts on the structure of exist...
The protection problems in microgrid effect the reliability of the power system caused due to high d...
The deployment of distributed generators (DGs) gives rise to several challenges for a microgrid or c...
DC faults can create serious damages if not detected and isolated in a short time. This paper propos...
There is a large difference in fault current level between the GC and IS mode for a microgrid (MG) w...
An important challenge in protection of a microgrid is the process of fault detection, considering t...
The protection design philosophy of distribution networks is predicated on the inherent radiality th...