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Line selection method based on FastICA for low current grounding system in single-phase grounding fault

A single-phase ground fault, small current grounding technology, applied in the direction of the fault location, etc., can solve the problems of small interference signals, complex ground current, and unsatisfactory effects, so as to avoid offset or compensation, obvious fault characteristics, and strong anti-interference ability Effect

Active Publication Date: 2018-02-13
GUANGXI UNIV
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Problems solved by technology

[0002] For low-current grounding, arc-suppression coil grounding, and high-resistance grounding systems where the neutral point is not grounded, the uncertainty of the single-phase grounding arc makes arc modeling difficult, and the small grounding current and complex interference signals seriously affect the line selection. Accuracy
At present, the methods to solve this problem include the ratio-amplitude-phase method, the fifth harmonic method, the zero-sequence admittance method, the power method, the first half-wave method, the energy method, the spectral power method, the wavelet method, and the injected signal method. The effect of the method application is not ideal
The traditional amplitude method and direction method are affected by intermittent arc faults, and are not suitable for the neutral point through the arc suppression coil grounding system
Harmonic method and active component method are difficult to obtain satisfactory line selection results because the corresponding component content is too small
Line selection methods based on modern signal processing technology (such as wavelet transform method), although wavelet analysis is very sensitive to singular points, and the line selection results are easily affected by interference signals

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  • Line selection method based on FastICA for low current grounding system in single-phase grounding fault
  • Line selection method based on FastICA for low current grounding system in single-phase grounding fault
  • Line selection method based on FastICA for low current grounding system in single-phase grounding fault

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Embodiment Construction

[0038] In order to better understand the present invention, the present invention will be further described below in conjunction with specific embodiment:

[0039] A method for line selection of a single-phase ground fault in a FastICA-based small current grounding system comprises the following steps:

[0040] (1) Set m observation channels for the small current grounding system; m is the number of observation channels;

[0041] (2) Collect the zero-sequence current observation value of each line through the observation channel; set the zero-sequence current observation value to X ij , wherein, i is the line number, i ∈ (1, n), n is the total number of lines; j is the observation channel number, j ∈ (1, m), m is the number of observation channels;

[0042] (3) The zero-sequence current observation value X of the i-th line ij Perform FastICA decomposition to obtain each component Y of the estimated signal Y ij ;

[0043] (4) Use the following formula to calculate each comp...

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Abstract

The invention relates to the technical field of grounding fault identification, in particular to a line selection method based on a FastICA for a low current grounding system in a single-phase grounding fault. According to the method, the FastICA method is utilized to process zero-sequence current of the grounding fault, three observation channels are arranged to separate fault steady-state components, transient-state components and noise signals from observation signals, the line fault characteristics are obvious after processing, and accurate line selection can be conducted on a fault line according to the energy of line separation variables. Because the noise signals are separated at the same time, the method is reliable, high in anti-interference capability and capable of not being affected by interference signals; meanwhile, for different initial phase angles of the fault, satisfactory line selection results can all be obtained by means of the method. By using the method to decompose and analyze the zero-sequence current of the fault, the cancellation or compensation among the components of the signals can be avoided, so that the fault characteristics are obvious to achieve the accurate line selection, and the method is widely applicable to the low current grounding system.

Description

technical field [0001] The invention relates to the technical field of ground fault identification, in particular to a line selection method for a single-phase ground fault of a small current ground system based on FastICA. Background technique [0002] For low-current grounding, arc-suppression coil grounding, and high-resistance grounding systems where the neutral point is not grounded, the uncertainty of the single-phase grounding arc makes arc modeling difficult, and the small grounding current and complex interference signals seriously affect the line selection. Accuracy. At present, the methods to solve this problem include the ratio-amplitude-phase method, the fifth harmonic method, the zero-sequence admittance method, the power method, the first half-wave method, the energy method, the spectral power method, the wavelet method, and the injected signal method. The effect of the method application is not ideal. The traditional amplitude method and direction method ar...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R31/08
CPCG01R31/08
Inventor 夏远洋李啸骢张焕博
Owner GUANGXI UNIV
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