Abstract

THE PURPOSE. This paper considers the problem of relay protection functioning when the current transformer reaches the saturation mode which is provided by transient processes.METHODS. MATLAB Simulink software environment allows reproducing the method of statespace representation by using structural blocks. The model is verified by comparison the time to saturation, obtained by calculation and according to the graphical data of the model. The separation of variables method extracts and graphically displays the investigated components.RESULTS. This paper reveals that applying the requirements of IEC 61869-2:2012 standard, which determines the worst combination of series of unfavorable factors for current transformers in transient mode, can influence a serious impact on the correct operation of relay protection based on current, reactance or differential principle of action. Saturation of the current transformer can lead to both negative results: false operation of relay protection devices and their failure.CONCLUSION. According to the results of the study, it was determined that the presence of a DC component in the primary short-circuit current has the greatest effect on the protection operation. The delays in the restoration of the RMS value of the short-circuit current reached up to 0.3 seconds, which is comparable with the response time of the second protection zones for microprocessor-based relay protection devices. The DC component of the primary current and the presence of residual magnetic induction of the current transformer provides the largest content of the magnetization current, the largest angular error and also the largest content of the second harmonic component in the secondary short-circuit current.

Highlights

  • Принцип действия силового трансформатора ничем не отличается от принципа работы ТТ, из чего следует вывод, что при насыщении ТТ последний также начинает генерировать сигнал второй гармоники во вторичном искажённом токе

  • Федосов Денис Сергеевич – канд.техн. наук, доцент, заведующий кафедрой электрических станций, сетей и систем, Иркутский национальный исследовательский технический университет

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Summary

Simulink software environment

С использованием представленной модели ТТ производилось снятие вольтамперной характеристики (далее ВАХ) от источника переменного тока (Рис.). Фиксировались действующие значения тока и напряжения намагничивания на вторичной обмотке ТТ. 4. Схема для снятия ВАХ исследуемой Fig. 4 The scheme for obtaining the I–V curve of the модели ТТ

CT model
10PR нормируют нормируют нормируют
Максимальная наблюдаемая угловая погрешность в зависимости от величины Та
Авторы публикации

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