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[1] G C. W. Barnett, J. W. Chadwick, et al,Relay Performance

considerations with low ratio CTS and high currents, IEEE Trans. Power Delivery, Vol. 8, No. 3, pp. 884-887, July 1993.

[2] A. G. Phadke and J. S. Thorp, Computer Relaying for Power Systems. Somerset, U.K.:Research Studies Press, 1988.

[3] Y. C. Kang, S. H. Ok, and S. H. Kang, A CT saturation detection algorithm, IEEE Trans. Power Del., Vol. 19, No. 1, pp. 78-85, jan. 2004

[4] Y. C. Kang, S. H. Ok, S. H. Kang, P.A. Crossely, Design and evaluation of an algorithm for detecting current transformer saturation, IEEE proceedings, Generation, Transmission, and Distribution, Vol. 151, No. 1,pp.27-35, jan. 2004

[5] W. Rebizant and D. Bejmert Current-Transformer Saturation Detection With Genetically Optimized Neural Networks2007, IEEE Transactions on Power Delivery, Vol. 22, No. 2, 2007.

][ . . .

2008

][ . . -

- 1392

[8] T. Bunyagul, P. A. Crossley, and P. Gale, Overcurrent protection using signals derived from saturated measurement CTs, presented at the Power Eng. Soc. Summer Meeting, Vancouver, BC, Canada, July 15-19,2001.

[9] C. Fernandez, An impedance-based CT saturation detection algorithm for bus-bar differential protection, IEEE Transactions on Power Delivery., Vol. 16, No. 4, pp. 468-472, Oct. 2001.

][ . . CT EMTP

2000

[11] Q. H. Wu, Z. Lu, T. Y. Ji, Protective Relaying of Power Systems Using Mathematical Morphology springer2008

[12] L. Zhang, J. Xu, J. Yang, D. Yang, D. Wang,Multiscale morphology analysis and its application to fault diagnosis Mechanical Systems and Signal Processing 22 (2008) 597610

[13] J. Pan, Khoi Vu, Yi Hu,An Efficient Compensation Algorithm for Current Transformer Saturation Effects IEEE Transactions on Power Delivery, Vol. 19, NO. 4, october 2004

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