Owing to the large magnitude of the inrush currents, the functionality of differential protection of power transformer may be threatened in correct discrimination between inrush and internal faults. This paper enhances the functionality of differential protection through a computationally efficient method that utilizes the phase angle current signals of the current transformers (CTs). The proposed discrimination criterion (PDC) tracks the fundamental phase angle of the current signals of the CTs. While during an internal fault, the phase angles of both CTs are almost constant and in phase, during the external fault and inrush currents, the phase angles of both CTs have notable distance. On this ground, this paper employs a developed Kalman ...
The discrimination of inrush currents and internal fault currents in transformers is an important fe...
An application of phase-angle-difference based algorithm with percentage differential relays is pres...
Electric power utilities have traditionally used electromechanical and solid-state relays for prote...
Owing to the large magnitude of the inrush currents, the functionality of differential protection of...
Power transformer differential protection may confront mal-functioning in authentic discrimination b...
Magnetizing inrush currents are known as the most critical potential threat in maloperation of the t...
This paper puts forward a new algorithm based on Kullback Leibler divergence (KLD) for discriminatin...
Current differential protection principle is superior in terms of sensitivity and speed of operation...
This paper demonstrates the results obtained from detailed studies of Kalman phasor estimation used ...
The differential protective system establishes the main protection against short circuits occurring ...
Abstract – In this paper, a new algorithm based on processing differential current harmonics is prop...
Transformer is an expensive device and one of the most important parts in a power system. Internal ...
Differential protection is the unit protection system which is applied to protect a particular unit ...
The popularity of Rogowski sensors is increasing due to their advantages over conventional CTs. Cons...
The discrimination of inrush currents and internal fault currents in transformers is an important fe...
An application of phase-angle-difference based algorithm with percentage differential relays is pres...
Electric power utilities have traditionally used electromechanical and solid-state relays for prote...
Owing to the large magnitude of the inrush currents, the functionality of differential protection of...
Power transformer differential protection may confront mal-functioning in authentic discrimination b...
Magnetizing inrush currents are known as the most critical potential threat in maloperation of the t...
This paper puts forward a new algorithm based on Kullback Leibler divergence (KLD) for discriminatin...
Current differential protection principle is superior in terms of sensitivity and speed of operation...
This paper demonstrates the results obtained from detailed studies of Kalman phasor estimation used ...
The differential protective system establishes the main protection against short circuits occurring ...
Abstract – In this paper, a new algorithm based on processing differential current harmonics is prop...
Transformer is an expensive device and one of the most important parts in a power system. Internal ...
Differential protection is the unit protection system which is applied to protect a particular unit ...
The popularity of Rogowski sensors is increasing due to their advantages over conventional CTs. Cons...
The discrimination of inrush currents and internal fault currents in transformers is an important fe...
An application of phase-angle-difference based algorithm with percentage differential relays is pres...
Electric power utilities have traditionally used electromechanical and solid-state relays for prote...