Energies (Jul 2014)

Saturation Detection-Based Blocking Scheme for Transformer Differential Protection

  • Byung Eun Lee,
  • Jinsik Lee,
  • Sung Ho Won,
  • Byongjun Lee,
  • Peter A. Crossley,
  • Yong Cheol Kang

DOI
https://doi.org/10.3390/en7074571
Journal volume & issue
Vol. 7, no. 7
pp. 4571 – 4587

Abstract

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This paper describes a current differential relay for transformer protection that operates in conjunction with a core saturation detection-based blocking algorithm. The differential current for the magnetic inrush or over-excitation has a point of inflection at the start and end of each saturation period of the transformer core. At these instants, discontinuities arise in the first-difference function of the differential current. The second- and third-difference functions convert the points of inflection into pulses, the magnitudes of which are large enough to detect core saturation. The blocking signal is activated if the third-difference of the differential current is larger than the threshold and is maintained for one cycle. In addition, a method to discriminate between transformer saturation and current transformer (CT) saturation is included. The performance of the proposed blocking scheme was compared with that of a conventional harmonic blocking method. The test results indicate that the proposed scheme successfully discriminates internal faults even with CT saturation from the magnetic inrush, over-excitation, and external faults with CT saturation, and can significantly reduce the operating time delay of the relay.

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