This paper presents a single end fault location scheme for distribution networks with distributed generation (DG). The high frequency transients generated when a fault occurs are used to locate the fault point. An equivalent circuit at high frequencies is derived for both inverter based and synchronous DGs. The voltages and currents measured only at the main substation are used in conjunction with the proposed DG model to create the fault location scheme. The distributed parameter line model is employed in the derivation to account for the line characteristics e.g. inductive and capacitive mutual coupling and untransposed lines. The inverter based DG model is validated experimentally on a 400 V, three-phase system. The IEEE 34-bus feeder is...
This thesis presents an investigation into impedance based fault location methods which directly use...
Being part of a larger research project named “Distribution 2020”, the focus of this work has been o...
Abstract- This paper presents a new fault location algorithm for radial distribution systems with di...
This paper presents a single end fault location scheme for distribution networks with distributed ge...
This paper presents a fault location scheme for unbalanced and untransposed distribution systems whi...
This paper proposes an improved impedance based fault location scheme based on system analysis at no...
Distributed Generations (DGs) with power electronic devices and their control loops will cause disto...
Fault location reveals the exact information needed for utility crews to timely and promptly perform...
This paper describes the influence of Distributed Generation (DG) on a double ended fault location b...
This paper presents a combined double-end and single-end fault locator for distribution systems. The...
Power distribution networks with distributed generations may experience faults. It is essential to p...
This paper presents a fault location technique for distribution systems. It is a two end impedance b...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Fault location is an important topic within electric power systems, as accurate fault location techn...
Abstract: The fault location techniques for power distribution systems (PDS) in use nowadays assume ...
This thesis presents an investigation into impedance based fault location methods which directly use...
Being part of a larger research project named “Distribution 2020”, the focus of this work has been o...
Abstract- This paper presents a new fault location algorithm for radial distribution systems with di...
This paper presents a single end fault location scheme for distribution networks with distributed ge...
This paper presents a fault location scheme for unbalanced and untransposed distribution systems whi...
This paper proposes an improved impedance based fault location scheme based on system analysis at no...
Distributed Generations (DGs) with power electronic devices and their control loops will cause disto...
Fault location reveals the exact information needed for utility crews to timely and promptly perform...
This paper describes the influence of Distributed Generation (DG) on a double ended fault location b...
This paper presents a combined double-end and single-end fault locator for distribution systems. The...
Power distribution networks with distributed generations may experience faults. It is essential to p...
This paper presents a fault location technique for distribution systems. It is a two end impedance b...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Fault location is an important topic within electric power systems, as accurate fault location techn...
Abstract: The fault location techniques for power distribution systems (PDS) in use nowadays assume ...
This thesis presents an investigation into impedance based fault location methods which directly use...
Being part of a larger research project named “Distribution 2020”, the focus of this work has been o...
Abstract- This paper presents a new fault location algorithm for radial distribution systems with di...