Method for detecting voltage sag based on generalized hyperbolic S-transformation

A technology of voltage sag and detection method, which is applied in the direction of measuring current/voltage, measuring device, and measuring electrical variables, etc. It can solve the problems of inability to realize the precise positioning of the start and end time of voltage sag, and is easily affected by noise, so as to reduce the sensitivity , Improve the effect of frequency resolution

A technology of voltage sag and detection method, which is applied in the direction of measuring current/voltage, measuring device, and measuring electrical variables, etc. It can solve the problems of inability to realize the precise positioning of the start and end time of voltage sag, and is easily affected by noise, so as to reduce the sensitivity , Improve the effect of frequency resolution

CN104808035AInactive Publication Date: 2015-07-29NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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  • Method for detecting voltage sag based on generalized hyperbolic S-transformation
  • Method for detecting voltage sag based on generalized hyperbolic S-transformation
  • Method for detecting voltage sag based on generalized hyperbolic S-transformation

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Embodiment Construction

[0014] The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

[0015] Such as figure 1 As shown, the steps of the voltage sag detection method of the present invention are as follows:

[0016] (1) Input the voltage signal into the power system analyzer for sampling to obtain the measured voltage sampling signal U(kT);

[0017] (2) Perform generalized hyperbolic S transform on the voltage sampling signal obtained in step (1), and the discretization form of generalized hyperbolic S transform is

[0018] S [ jT , n NT ] = Σ m = 0 N - ...

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Abstract

The invention relates to a method for detecting voltage sag based on generalized hyperbolic S-transformation, which comprises the following steps of (1) sampling detected voltage signals; (2) carrying out generalized hyperbolic S-transformation on the sampled signals; (3) calculating a fundamental frequency voltage amplitude value according to an S-model matrix; (4) comparing the fundamental frequency voltage amplitude value with a set voltage sag threshold value, and judging whether voltage sag occurs or not; and (5) extracting a characteristic value if voltage sag occurs, and carrying out detection and analysis on start and stop moments and phase jumps of the voltage sag. Compared with an existing detection method, the method provided by the invention adopts the generalized hyperbolic S-transformation, improvement is carried out on an original hyperbolic window function, and a window width factor and a window width change rate adjustment factor are introduced, thereby being capable of flexibly adjusting the time-frequency resolution, reducing the sensitivity of detection signals for noises, and being capable of accurately detecting the amplitude value, the start and stop moments and the phase jumps of the voltage sag. The method provided by the invention has wide application prospects in fault detection of an electric power system.

Description

technical field [0001] The invention relates to a voltage sag detection method based on generalized hyperbolic S transform, belonging to the field of power quality signal analysis and processing. Background technique [0002] In recent years, with the development of the power industry and high-tech, various highly automated and intelligent modern industrial equipment are widely used in power systems, and their dependence on high-quality power supply is increasing. Power interruptions or voltage dips will affect the normal operation of these sensitive devices. Among various power quality problems, voltage sag is the main factor for abnormal operation of sensitive equipment. It is generally believed that more than 70% of power quality problems are caused by voltage sags. Voltage sag may cause computer program disorder, production process stop, speed regulating device failure and protection equipment malfunction, etc., which not only cause economic losses to users, but may al...

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Application Information

Patent Timeline
29 Jul 2015
Publication
CN104808035A
IPC
G01R19/00
Inventors
吴丽娜; 刘观起