W. Rebizant scite author profile

If a current transformer (CT) saturates while transforming the heavy primary current, in each period, there are sections when the magnetic core is unsaturated and transformation is correct, and when it is saturated, it causes enormous errors. The key to correct the errors is to detect instants of saturation and moments when the saturation ends. This paper presents simple and efficient methods of doing that. In addition, it shows the way how to predict up to three samples after saturation with the acceptable degree of accuracy, thus artificially expanding the unsaturated section. It may substantially facilitate operation of protective devices. The ultimate solution of the problem is to estimate the values of the fundamental frequency component amplitude and the decaying dc component in each period. This paper presents the method of doing that on the ground of four consecutive samples taken during the unsaturated section. If the primary current consists of the fundamental and dc exponential components only, the accuracy of the method is excellent. Neglecting contamination of the current signal with harmonics and noise, it is possible to reconstruct the CT primary current based on the measured values of fundamental and dc components.

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Ultrasaturation Phenomenon in Power Transformers—Myths and Reality

Wiszniewski

Rebizant

Bejmert

et al. 2008

IEEE Trans. Power Delivery

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New algorithms for power transformer inter-turn fault protection

Wiszniewski

Rebizant

Schiel

2009

Electric Power Systems Research

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W. Rebizant

Digital Signal Processing in Power System Protection and Control

New ANN-Based Algorithms for Detecting HIFs in Multigrounded MV Networks

Correction of Current Transformer Transient Performance

Ultrasaturation Phenomenon in Power Transformers—Myths and Reality

New algorithms for power transformer inter-turn fault protection

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