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Measuring method of electric parameters with wide change range and system

A technology with a wide range of electrical parameters, applied in the direction of effective value measurement, etc., can solve the problems of slow dynamic response speed, poor dynamic performance, and wide range of micro-grid wind power generation frequency, so as to improve dynamic performance, improve dynamic response speed, The effect of increasing the precise frequency measurement range

Inactive Publication Date: 2013-10-09
CHINA AGRI UNIV +1
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Problems solved by technology

[0004] The present invention solves the problems of wide frequency variation range, poor dynamic performance and slow dynamic response speed in micro-grid wind power generation by providing a wide-ranging electrical parameter measurement method

Method used

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  • Measuring method of electric parameters with wide change range and system
  • Measuring method of electric parameters with wide change range and system
  • Measuring method of electric parameters with wide change range and system

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Embodiment Construction

[0038] The present invention will be described in further detail below in conjunction with specific embodiments and accompanying drawings.

[0039] The invention provides a method for measuring electrical parameters with wide range changes, the specific steps are as follows: figure 1 shown, including:

[0040] S1. Perform discrete sampling on the instantaneous voltage signal to obtain a discrete voltage signal, and perform sliding window iterative discrete Fourier transform on the discrete voltage signal in combination with the phase-locked feedback phase signal to obtain a phase difference signal;

[0041] In the present invention, the phase-locked feedback phase angle is used as a phase reference, and the time-domain discrete voltage signal is subjected to sliding window iterative discrete Fourier transform using the data collected this time combined with the previous N-1 times of data to obtain the phase-locked feedback phase angle signal and Instantaneous voltage signal f...

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Abstract

The invention provides a measuring method of electric parameters with a wide change range and system. The method is applied to a microgrid where medium-small capacity wind generating sets are accessed. The method includes the steps of step 1, obtaining discrete voltage signals through discrete sampling on instantaneous voltage signals, carrying out sliding-window iterative discrete Fourier transform, combined with phase lock negative feedback phase angle signals, on the discrete voltage signals so as to obtain phase difference signals, step 2, carrying out proportional integral control on the phase difference signals to obtain fundamental wave angle frequency of zero phase difference signals, step 3, obtaining output frequency through the fundamental wave angle frequency, carrying out discrete integration on the output frequency and adding the output frequency and the fundamental wave angle frequency to obtain a phase angle, and carrying out phase locking negative feedback on the phase angle, and step 4, computing to obtain voltage and current effective values through the output frequency. The method achieves the purpose of digital phase locking of voltage wide in frequency change range, and provides an input parameter measuring method for quick power control of the medium-small capacity wind generating sets.

Description

technical field [0001] The invention relates to the technical field of renewable energy power generation, in particular to a method and system for measuring electrical parameters applicable to a wide range of changes in microgrids. Background technique [0002] A microgrid is a microgrid, which refers to a small power generation and distribution system composed of distributed power sources, energy storage devices, energy conversion devices, related loads, and monitoring and protection devices. An important trend in the development of power grids in the future. With the decrease of conventional energy sources, wind power is playing an increasingly important role in the smart grid. However, wind power cannot achieve stable operation through input power and generator excitation control like conventional power sources. Generally, large-scale grid-connected wind turbines can achieve the first level of AC and DC power control by adding a coaxial pulse encoder phase-locked and the...

Claims

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Application Information

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IPC IPC(8): G01R19/02
Inventor 唐云峰杨仁刚卓伟光杨明皓杜海江黄秀琼井天军王文成王江波孙钦斐
Owner CHINA AGRI UNIV
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