Method for distinguishing magnetizing inrush current by sample current added with zero-sequence current component

A technology of excitation inrush current and zero-sequence current, applied in the measurement of electrical variables, measurement of electricity, measurement devices, etc., can solve the problems of airdrop failures that cannot be quickly opened, airdrop misoperation, and limited decoupling degree, so as to improve reliability and reliability. Airdrop failure action sensitivity, avoid refusal or misoperation, and the effect of small mutual influence

Inactive Publication Date: 2011-06-01
STATE GRID ELECTRIC POWER RES INST
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Problems solved by technology

[0003] Based on the differential current synthesis between phase currents, the differential current of each phase introduces other phase currents, which cannot achieve decoupling, causing the excitation inrush current of this phase to be affected by the excitation inrush current of other phases, and there is a loss of inrush current characteristics during the conversion process. Misoperation is prone to occur during airdrop, and it is not suitable to use phase-separated locking, which will cause the airdrop to fail to open quickly when the airdrop fails
[0004] Based on the differential current synthesis based on the subtractive zero-sequence current, the differential current of each phase introduces other phase currents, and the degree of decoupling is limited, so that the excitation inrush current of this phase is easily affected by the excitation inrush current of other phases, and there is a certain degree of loss of inrush current characteristics during the conversion process. , it is prone to misoperation during airdrop, and it is not suitable to use phase-separated locking, which will cause the airdrop failure to not be opened quickly

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  • Method for distinguishing magnetizing inrush current by sample current added with zero-sequence current component
  • Method for distinguishing magnetizing inrush current by sample current added with zero-sequence current component
  • Method for distinguishing magnetizing inrush current by sample current added with zero-sequence current component

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Embodiment Construction

[0022] The present invention will be further described below in conjunction with accompanying drawing.

[0023] The sample current requires Y or Y0 connection on one side of the transformer, and the current participating in the differential current synthesis is the phase current of this phase plus 1 / 3 of the zero-sequence current produced by this side.

[0024] Take the transformer connected to Y0 / d11 as an example, such as figure 1 As shown, the transformer winding ratio is set to 1:1. The sample current of each phase differential current participating in the discrimination of the inrush current is shown in formula (1):

[0025] (1)

[0026] In formula (1), i dA , i dB , i dC is the sample current of the three-phase differential current, I He is the rated current of the high voltage side, I Le is the rated current of the low voltage side, i HA , i HB , i HC is the three-phase current at the high voltage side, i LA , i LB , i LC is the three...

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Abstract

The invention provides a method for distinguishing magnetizing inrush current by sample current added with zero-sequence current component. The sample current added with the zero-sequence current component is utilized to sufficiently reserve wave forms of the inrush current and harmonic characteristics. The method has the beneficial effect of more actually reflecting exciting current. The method is used to realize sufficient decoupling of each phase inrush current with slight mutual influences, achieve split-phase inrush current braking, and improve reliability of magnetizing inrush current lockout of transformer differential protection and sensitivity of air-drop fault actions.

Description

technical field [0001] The invention relates to a sample current used for identification of excitation inrush current and fault current in the differential protection of power system transformers. Background technique [0002] In order to ensure the safe operation of the transformer, it must be equipped with differential protection, and the excitation inrush current of the transformer has always been a major hidden danger of the misoperation of the transformer differential protection. According to the different wiring types of transformer windings, there are two main methods of amplitude and phase correction differential current commonly used at home and abroad: one is the differential current synthesis based on the phase-to-phase current; the other is the differential current synthesis based on the subtractive zero-sequence current. And the identification of the inrush current is completed by the synthesized differential current. [0003] Based on the differential current ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02H7/045G01R31/00
Inventor 潘书燕刘小宝侯喆郝后堂郑玉平柳焕章
Owner STATE GRID ELECTRIC POWER RES INST
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