Comprehensive Line Selection Method Based on the Relative Intensity of Transient Signal

Li Qun Shang; Jia Jia Zhao; Jiang Ning Wang

doi:10.4028/www.scientific.net/AMM.157-158.1561

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SRAP Pre-Stressed Reinforcing Techniques for Concrete Structures
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Model and Simulation on Flow and Pressure Characteristics of Axial Piston Pump for Seawater Desalination
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Long Term Voltage Stability Enhancement by Model Predictive Control
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Comprehensive Line Selection Method Based on the Relative Intensity of Transient Signal
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BSC Application in the Performance Management of Service-Oriented Manufacturing Enterprises
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Failure Analysis of Reinforced Concrete Columns after High Temperature
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Serial Communication of PC and SCM in Distributed Control System
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 157-158Comprehensive Line Selection Method Based on the...

Comprehensive Line Selection Method Based on the Relative Intensity of Transient Signal

Abstract:

When single-phase to ground fault happens in non-effectively earthed systems, in order to select the fault line more accurately, this paper puts forward the concept that relative intensity of the transient signal (Q). And based on this, a new method processing nonlinear and the non-stationary single named Hilbert-Huang transform (HHT) was combined with the steady-state zero sequence current method, named a new line selection method which synthesized the transient and steady state quantity. The method makes full use of transient and steady-state line information, to make up for the shortage of the previous method which using single criterion to detect fault line. At last, it was showed that this method is not affected by the fault initial phase Angle and grounding resistance by MATLAB, and also its accuracy and feasibility have been verified.