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Phase sequence synthesized integration method for preventing multiple-branch voltage transformer differential protection unwanted operation by utilizing fault components

A transformer protection and fault component technology, applied in the direction of emergency protection circuit devices, electrical components, etc., can solve problems such as inability to perform reliable braking, maloperation of transformer differential protection, and inability to eliminate the influence of zero-sequence current

Inactive Publication Date: 2007-11-21
ZHEJIANG UNIV
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Problems solved by technology

However, when the errors of the three-phase current transformers on the grounding side are inconsistent, and the transformer only has power supply on the grounding side where an external fault occurs, the traditional method cannot eliminate the influence of the zero-sequence current caused by the external grounding fault on the grounding side, and there will be a large The differential unbalanced current of the differential current, the ratio braking element and the inrush braking element cannot perform reliable braking, especially when the transformer load current is small or even zero, the ratio braking element and the inrush braking element cannot perform reliable braking. Braking cannot be performed, as long as the error current exceeds the threshold, the transformer differential protection will malfunction

Method used

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  • Phase sequence synthesized integration method for preventing multiple-branch voltage transformer differential protection unwanted operation by utilizing fault components

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Embodiment 1

[0012] A fault component phase-sequence comprehensive zero-sequence braking method for preventing transformer protection maloperation, the method can use the fault component to prevent multi-branch transformer differential protection maloperation through the circuit of a positive sequence synthesis comprehensive braking device shown in Figure 2 Realize, this device is by memory 11~13, subtracter 21~23, fundamental wave positive sequence filter 31, filter 32, memory 41,42,43, subtractor 51,52,53, filter 61 , 62, 63, multipliers 71, 72, 73, adder 81, multiplier 82, and comparator 9, wherein the input terminals of the memory devices 11-13 and the positive input terminals of the subtractors 21-23 respectively input the transformer differential Three-phase differential current instantaneous value signal i formed by protection da i db i dc , the negative input ends of the subtractors 21-23 are respectively connected to the output ends of the memories 11-13, and the output ends are...

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Abstract

The invention discloses a phase sequence synthesized integration method for preventing multiple-branch voltage transformer differential protection unwanted operation by utilizing fault components, wherein the three-phase difference currents in the transformer differential protection constitute ratio braking element with the maximum value of zero-sequence current on each of the neutral point earthing end (or branches), when the ratio value is less than a setting value K, the Y0 lateral area outer ground fault is determined, and outputs corresponding brake signal, brake the corresponding phase ratio differential protection. The advantages of the invention are, the transformer differential protection accidental operation resulted from ground fault outside the lateral area when the errors of the three-phase current transformer are in inconformity.

Description

technical field [0001] The invention relates to a transformer protection method, in particular to a fault component phase-sequence comprehensive zero-sequence braking method for preventing transformer protection maloperation. Background technique [0002] The existing power transformer differential protection device uses a ratio brake element, that is, the ratio of the differential current to the through current, to identify the fault outside the zone and the fault in the zone; The waveform or harmonic content of the differential current is used to identify the excitation inrush current and over-excitation current to achieve the purpose of identifying internal faults. For power transformers with neutral points directly grounded on two or more sides, when an external ground fault occurs on one neutral point grounding side, a large ground fault zero-sequence current may occur on multiple grounding sides. In order to prevent the zero-sequence current from causing differential ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02H7/045
Inventor 徐习东
Owner ZHEJIANG UNIV
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