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Constructing method for decoupling controller of bearingless permanent magnet synchronous motor with five degrees of freedom

A technology of permanent magnet synchronous motor and decoupling controller, which is applied in the direction of motor generator control, AC motor control, electronic commutation motor control, etc., and can solve the problem of poor decoupling control effect of five-degree-of-freedom bearingless permanent magnet synchronous motor , Difficult to extract ideal samples, difficult to optimize the network structure, etc., to achieve the effect of solving machine learning problems, getting rid of dependencies, and simple structure

Active Publication Date: 2015-02-04
江苏红光仪表厂有限公司
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Problems solved by technology

However, the five-degree-of-freedom bearingless permanent magnet synchronous motor is a complex nonlinear system, and its parameters vary significantly under various working conditions, making it difficult to apply the inverse system method in practice.
[0005] Although the current neural network inverse method can solve the problem that the inverse model is difficult to obtain in the inverse system method, due to the local minimum problem of the neural network, and the slow learning speed, long training time, difficulty in extracting ideal samples, and difficult optimization of the network structure and other defects, making the decoupling control effect of the five-degree-of-freedom bearingless permanent magnet synchronous motor based on the neural network inverse method not good

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  • Constructing method for decoupling controller of bearingless permanent magnet synchronous motor with five degrees of freedom
  • Constructing method for decoupling controller of bearingless permanent magnet synchronous motor with five degrees of freedom
  • Constructing method for decoupling controller of bearingless permanent magnet synchronous motor with five degrees of freedom

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Embodiment Construction

[0025] The implementation scheme of the present invention is: first three Clark inverse transformations, three current tracking inverters, a linear power amplifier, a five-degree-of-freedom bearingless permanent magnet synchronous motor and a load are used as a whole to form a composite controlled object. The compound controlled object is equivalent to an 11th-order differential equation model in a stationary coordinate system, and the relative order of the system vector is {2,2,2,2,2,1}. A support vector machine with 17 input nodes and 7 output nodes plus 11 integrators Construct the support vector machine inverse of the composite plant with 6 input nodes and 7 output nodes. And by adjusting the vector coefficients and thresholds of the support vector machine, the support vector machine inverse realizes the inverse system function of the compound controlled object. Then the support vector machine is inversely connected before the compound controlled object, and the support ...

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Abstract

The invention discloses a constructing method for a decoupling controller of a bearingless permanent magnet synchronous motor with five degrees of freedom. Three Clark inverse transformers are respectively connected in front of three corresponding current tracking inverters in series, and the three current tracking inverters and one linear power amplifier are respectively connected in front of the synchronous motor and a load model thereof in series to form a complex controlled object; and a support vector machine inverter with 6 input nodes and 7 output nodes is constructed by a support vector machine with 17 input nodes and 7 output nodes and 11 integrators, a pseudo-linear system is formed, a corresponding pseudo-linear subsystem controller is designed, a linear closed-loop controller is constructed, and the decoupling controller of the synchronous motor is constructed by the linear closed-loop controller, the support vector machine inverter, the three Clark inverse transformers, the three current tracking inverters and one linear power amplifier. Nonlinear dynamic decoupling control on the rotor displacement and the rotating speed of the bearingless permanent magnet synchronous motor with five degrees of freedom can be realized.

Description

technical field [0001] The invention belongs to the technical field of electric drive control equipment, and relates to a construction method of a five-degree-of-freedom bearingless permanent magnet synchronous motor decoupling controller. The bearingless permanent magnet synchronous motor is suitable for high-speed and ultra-high-speed special electric transmission, and is used in CNC machine tools, Aerospace, sealed pumps, electromechanical energy storage, life sciences and many other special electric transmission fields have broad application prospects. Background technique [0002] According to the similarity between the magnetic bearing structure and the traditional motor structure, the bearingless permanent magnet synchronous motor stacks the magnetic bearing windings that generate radial levitation force and the stator (torque) windings of the permanent magnet synchronous motor, so that the motor rotor has both rotation and Self-suspension capability realizes the bear...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P21/00H02P27/06
Inventor 孙晓东陈龙李可杨泽斌朱熀秋
Owner 江苏红光仪表厂有限公司
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