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Method for identifying parameters of doubly-fed wind generator converter control system based on superposed M sequence

A wind turbine and parameter identification technology, applied in the field of parameter identification, can solve problems such as the inability to obtain input and output data, the control system falling into a nonlinear working area, and the inability to realize manual setting of reference value step changes, etc., to achieve simple operation and improved The effect of engineering practicality

Active Publication Date: 2021-11-30
WUHAN UNIV
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Problems solved by technology

For the three-phase short-circuit excitation method on the primary side, if the voltage drop is too large, the control system will easily fall into the nonlinear working area and cannot obtain effective input and output data; for the excitation method of the step disturbance of the control system reference value setting, there is The problem that the controllers of some manufacturers cannot manually set the step change of the reference value; for the excitation method of directly superimposing the pseudo-random sequence, since the input of the system is the intermediate variable of the actual fan controller, it cannot be realized without modifying the controller. Input quantity superposition pseudo-random sequence

Method used

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  • Method for identifying parameters of doubly-fed wind generator converter control system based on superposed M sequence
  • Method for identifying parameters of doubly-fed wind generator converter control system based on superposed M sequence
  • Method for identifying parameters of doubly-fed wind generator converter control system based on superposed M sequence

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Embodiment Construction

[0057] The following introduces a method for parameter identification of doubly-fed wind turbine converter based on superimposed M-sequence, and analyzes and calculates it with specific examples.

[0058] The theoretical basis and methods involved in the present invention will be introduced in turn below.

[0059] One, at first introduce relevant principle of the present invention

[0060] 1. The principle of M-sequence continuous excitation

[0061] Parameter identification requires that the input signal satisfy the continuous excitation condition, that is, the power spectral density of the signal is not zero within the dynamic response frequency band of the system to be identified, and the consistency of parameter identification can be achieved by fully stimulating the dynamic response characteristics of the system. In order to meet the continuous excitation condition, the excitation signal is required to have a sufficiently wide frequency band relative to the identificatio...

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Abstract

The invention discloses a method for identifying parameters of a doubly-fed wind generator converter control system based on a superposed M sequence. The identification method comprises the steps of building a rotor-side converter double-input single-output equivalent model, superposing a small-amplitude three-phase M sequence on a stator-rotor current measurement signal through the continuous excitation property of the M sequence, and optimizing and fitting the input and output data based on a sine and cosine optimization algorithm to obtain a PI parameter identification value of the controller. The parameter identification method based on the secondary measurement signal superposed M sequence can prevent the controller from falling into a nonlinear working interval, and meanwhile, only the excitation signal needs to be superposed on the stator and rotor measurement signal, so that the operation on the intermediate state variable in the control process is avoided, and the engineering practicability is improved. Meanwhile, benefited from continuous excitation of the M sequence, the control parameter identification error is less than 5%, the identification precision is high, and the method has great significance for establishing an accurate mathematical model of the doubly-fed fan.

Description

technical field [0001] The invention relates to a doubly-fed wind power generator, specifically a parameter identification method, which is applicable to the identification of PI parameters of a doubly-fed wind power generator converter control system, thereby obtaining accurate control parameters of the converter control system, which is a digital method for power systems. The simulation analysis provides a more accurate mathematical model, which is of great significance to improve the reliability of the digital simulation results of the double-fed fan system. Background technique [0002] In recent years, wind power generation has developed rapidly, and the installed capacity has increased rapidly. In the future, the penetration rate of wind power in the power grid will continue to rise. At the same time, the problem of safe and stable operation of the power grid under the background of a high proportion of wind power connected to the grid is becoming more and more serious...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/38H02M7/00H02M7/12
CPCH02J3/381H02M7/00H02M7/12H02J2300/28H02J2203/10H02J2203/20Y02B10/30Y02E10/76
Inventor 彭晓涛许饶琪陈人杰郭培高云超
Owner WUHAN UNIV
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