Power transmission line fault positioning method based on non-contact sensor

Abstract

The invention provides a power transmission line fault positioning method based on a non-contact sensor. The method comprises the following steps of: S1, installing one detection device for detecting travelling wave signals every 10-15 km on a power transmission line; S2, receiving current and voltage signals in the circuit, and transmitting the current and voltage signals to a main control center through a communication module; S3, after the main control center analyzes the received data and discovers a fault traveling wave signal, finding a second fault traveling wave signal in the detection device An connected with the detection device Am corresponding to the fault traveling wave signal, and according to the fault traveling wave signal and the second fault traveling wave signal, calculating the time for a first travelling wave head to respectively arrive at the detection devices Am and An; and S4, calculating the position of a fault point. According to the invention, the power transmission line fault positioning method is high in positioning precision and can be widely applied to a high-voltage power transmission network.

Description

technical field [0001] The invention belongs to the technical field of power system protection, and in particular relates to a transmission line fault location method based on a non-contact sensor. Background technique [0002] Quickly and accurately determining the location of the fault point of the transmission line can speed up the repair of permanent faults, eliminate hidden dangers in time to avoid the recurrence of a large number of transient faults, and is of great significance to ensure the safety, stability and economic operation of the power system. [0003] At present, many methods have been proposed at home and abroad for fault location of transmission lines, mainly including impedance method, S injection method, "fault indicator" technology, feeder automation technology and traveling wave method. The impedance method is greatly affected by line impedance, load and power supply parameters. For distribution lines with multiple branches, the impedance method cannot...

AI Technical Summary

Problems solved by technology

In addition, due to the low sampling rate of existing traveling wave ranging devices, most of them do not exceed 1MHz, and the positioning accuracy is also low, and the theoretical and actual ranging errors often exceed 1km

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