Adaptive Digital Differential Protection of Power Transformer
Author:
Publisher
Springer Singapore
Link
http://link.springer.com/content/pdf/10.1007/978-981-15-6763-6_4
Reference25 articles.
1. Abdelsalam HA, Abdelaziz AY (2015) A new strategy for selection of switching instant to reduce transformer inrush current in a single-phase grid-connected photovoltaic system. Electr Power Compon Syst 43(11):1297–1306
2. Hooshyar A, Sanaye-Pasand M (2012) Accurate measurement of fault currents contaminated with decaying DC offset and CT saturation. IEEE Trans Power Deliv 27(2):773–783
3. Samet H, Ghanbari T, Ahmadi M (2015) An auto-correlation function based technique for discrimination of internal fault and magnetizing inrush current in power transformers. Electr Power Compon Syst 43(4):399–411
4. Narayana GS, Badgujar KP, Kulkarni SV (2013) Factorisation-based transfer function estimation technique for deformation diagnostics of windings in transformers. IET Electr Power Appl 7(1):39–46
5. Valsan SP, Swarup KS (2008) Wavelet based transformer protection using high frequency power directional signals. Electr Power Syst Res 78(4):547–558
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