Single-ended electrical quantity full-line quick-action protection method for recognizing faults inside and outside high-voltage direct-current transmission line region
A technology for DC transmission lines and transmission lines, which is applied to fault locations, electrical components, emergency protection circuit devices, etc., and can solve problems such as poor selectivity, high sampling rate requirements for DC line relay protection devices, and low reliability
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Embodiment 1
[0054] The full-line fast protection method of single-ended electrical quantity for identifying internal and external faults of HVDC transmission lines mainly utilizes the amplitude of electrical quantities of specific frequencies on the DC line side of single-ended converter stations to distinguish internal faults and external faults.
[0055] Follow the steps below:
[0056] 1) In the converter station, the current signal of the local pole is obtained from the sensor on the side of the direct current transmission line of the local pole;
[0057] 2) Calculate the sudden change of current per unit time according to the current of the pole, and start protection when it is greater than the starting threshold;
[0058] 3) Use the digital filter in the control and protection system to filter the local pole current obtained from step 1 to obtain the specific frequency current;
[0059] 4) Calculate the amplitude of the specific frequency current obtained by filtering;
[0060] 5)...
Embodiment 2
[0072] The full-line fast protection method of single-ended electrical quantity for identifying internal and external faults of HVDC transmission lines mainly uses the amplitude of electrical quantities of specific frequencies on the DC line side of single-ended converter stations to distinguish internal faults and external faults.
[0073] Follow the steps below:
[0074]1) In the converter station, the local pole voltage signal and the local pole current signal are obtained from the sensor on the side of the local pole DC transmission line;
[0075] 2) Calculate the current mutation per unit time according to the current signal of the local pole, and start protection when it is greater than the starting threshold;
[0076] 3) Use the digital filter in the control and protection system to filter the local voltage signal obtained in step 1 to obtain a specific frequency voltage;
[0077] 4) Calculate the amplitude of the specific frequency voltage obtained by filtering;
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