Network for dynamically suppressing power frequency interference of power transmission line

Abstract

The invention relates to a network for dynamically suppressing power frequency interference of a power transmission line, which belongs to test facilities for electric transmission and transformation equipment. The network is characterized by consisting of an isolation three-phase transformer, a filtering impedor, an interference current suppressing impedor and an interference voltage releasing impedor, wherein the isolation three-phase transformer adopts delta/Y connection; the filtering impedor is connected in parallel with a secondary winding of the isolation three-phase transformer; one end of the interference current suppressing impedor is connected with a non-public end of the secondary winding of the isolation three-phase transformer while the other end is connected with one end of the filtering impedor and a tested circuit end; the interference voltage releasing impedor and the other end of the filtering impedor are connected with a public end of the secondary winding of the isolation three-phase transformer; the filtering impedor, the interference current suppressing impedor and the interference voltage releasing impedor consist of a capacitive reactor and an inductive reactor which are connected in parallel respectively; the filtering impedor and the interference voltage releasing impedor are capacitive; and the interference current suppressing impedor is inductive. The problems of low test result stability, low data reliability and high potential safety hazard of the conventional test facility are solved and the network is used for testing a power frequency parameter of the power transmission line by a pilot frequency method.

Description

technical field [0001] The invention relates to a dynamic suppression network for power frequency interference of power transmission lines, which is used for power frequency parameter testing of power transmission lines by different frequency methods, and belongs to power transmission and transformation equipment testing facilities. Background technique [0002] The development of the power system has made the scale of the power grid larger and larger, the structure more and more complex, and the requirements for the reliability of system protection are also getting higher and higher. It is necessary to provide more accurate system parameters for the protection setting as a calculation basis, and at the same time the power grid structure optimization More accurate parameters of each main component of the power system are also required. The positive-sequence parameters and zero-sequence parameters of high-voltage transmission lines, as well as the mutual impedance and couplin...

AI Technical Summary

Problems solved by technology

[0003] The development of the power grid is restricted by the land corridor, and the density is getting higher and higher. Double-circuit or multi-circuit lines on the same tower have become the norm. The coupling between lines has reached an unprecedented level. The electromagnetic coupling induced interference current can reach 60-80A, high-quality The demand for power supply makes it unrealistic to reduce the interference level by power failure during the test

[0004] In traditional test facilities, the met

Images