Abstract: |
With respect to sensitivity, selectivity and speed of operation, the current differential scheme is a better way to
protect transmission lines than overcurrent and distance-based schemes. However, the protection scheme can be
severely influenced by the Line Charging Capacitive Current (LCCC) with increased voltage level and Current
Transformer (CT) saturation under external close-in faults. This paper presents a new UHV/EHV current-based
protection scheme using the ratio of phasor summation of the two-end currents to the local end current, instead
of summation of the two-end currents, to discriminate the internal faults. The accuracy and effectiveness of the
proposed protection technique are tested on the 110 kV Western System Coordinating Council (WSCC) 9-bus
system using PSCAD/MATLAB. The simulation results confirm the reliable operation of the proposed scheme during
internal/external faults and its independence from fault location, fault resistance, type of fault, and variations in
source impedance. Finally, the effectiveness of the proposed scheme is also verified with faults during power swing
and in series compensated lines. |
Key words: Current differential protection, Line charging capacitive current, CT saturation, Fault discrimination,
Phasor summation of currents |
DOI:10.1186/s41601-020-00168-6 |
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Fund: |
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