POWER TRANSFORMER ADAPTIVE DIFFERENTIAL CUTOFF

Dmitry V. Baklanov, Ilya I. Litvinov, Mikhail A. Kuparev, and Anastasia G. Rusina

References

  1. [1] A.S. Zasipkin, The power transformer relay protection (Moscow:Energoatomizdat Publishing House, 1989).
  2. [2] E.V. Podgornii and E.M. Ulyanickii, Comparison of principlesof the differential relays offset from the power transformerswitch-on currents, Electricity, 10, 1969, 26–32.
  3. [3] E.M. Sheerson, Digital relay protection (Moscow: Energoatomizdat Publishing House, 2007).
  4. [4] Relay protection recommended practice. Zero-sequence over-current protection of 110–500 kV overhead transmission lines.Calculations (Moscow: Energiya, 1980).
  5. [5] L.V. Baginskii, The main features of the differential protection ofpower stations and substations electrical equipment (Novosibirsk:NSTU Publishing House, 2005).
  6. [6] A.V. Zinchenko and L.V. Chernousova, Single-system differentialcutoff of power transformers of rural power networks constructedfrom aperiodic magnetizing inrush current, Russian ElectricalEngineering, 86(8), 2015, 448–452.
  7. [7] M. Tripathy, Power transformer differential protection based onneural network principal component analysis, harmonic restraintand Park’s plots, Advances in Artificial Intelligence, 2012,Article ID 930740, 2012, 9.
  8. [8] I.I. Litvinov and V. E. Glazyrin, Analysis of the oscillogramof the differential current under the conditions of sequentialmagnetizing inrush current of a power transformer, New inRussian Power Engineering, 5, 2017, 17–27.
  9. [9] V.E. Glazirin, Calculation of setpoints of the generator unitdigital relay protection (Novosibirsk: NSTU Publishing House,2009).

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