Curve Fitting Analysis of Expulsion Fuse Links for Protection Studies

Costa, Guilherme Braga da; Bertoletti, Augusto Zanin; Morais, Adriano Peres de; Cardoso, Ghendy; Bretãs, Arturo S.

doi:10.1109/isgt-la.2019.8895456

Cited by 1 publication

(1 citation statement)

References 8 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The resulting currents and voltages are sensed via a analog-todigital converter and recorded in a PC. [43]. Therefore, the proposed POCT can work equally well for overcurrent protection at distribution level.…”

Section: B Tripping Experimental Testmentioning

confidence: 89%

A Novel Passive Over-Current Trip Device for Seismic Resilience

Hsu,

Liu,

Chen

et al. 2024

IEEE Open J. Power Energy

View full text Add to dashboard Cite

The seismic resilience has become a critical concern for power systems for high-impact, low-probability disasters such as severe earthquakes. In order to enhance seismic resilience for power systems, a novel protective device, the Passive Over-Current Trip (POCT), has been designed in this paper. In the design, the POCT integrates a fuse and a mechanical switch, able to trigger the breaker to interrupt the circuit to ensure effective protection. The POCT has the trip-free feature as it fulfills its protective function without the need for an electric relay requiring a continuous power supply. The proposed POCT provides an immediate and reliable solution for the protection in high and ultra-high voltage applications. To validate the effectiveness of the proposed POCT, shockproof and tripping tests were conducted. A seismic test waveform from the Fukushima earthquake that occurred on March 11, 2011 was used to test POCT. Under such a severe earthquake, no structural or mechanical damage on the associated components in the POCT was found. Also, the POCT is also in compliance with IEEE 693 standard. Finally, various tripping tests show that the POCT can operate within 18 ms when a fault occurs in a power system, which is much shorter than that of a typical high-voltage fuse.

show abstract

Section: B Tripping Experimental Testmentioning

confidence: 89%