Construction method of decoupling controller for bearingless permanent magnet motor with ironless outer rotor

A technology of decoupling controllers and permanent magnet motors, applied in electronic commutation motor control, motor generator control, AC motor control, etc., can solve problems such as open-loop instability, and achieve easy optimization of network structure and fast learning speed , the effect of short training time

Active Publication Date: 2022-07-22
宁波卓泰电子有限公司
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Problems solved by technology

The general support vector machine inverse system used in the above literature is open-loop unstable, and the robust controller has some shortcomings in dynamic performance or parameter adjustment

Method used

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  • Construction method of decoupling controller for bearingless permanent magnet motor with ironless outer rotor
  • Construction method of decoupling controller for bearingless permanent magnet motor with ironless outer rotor
  • Construction method of decoupling controller for bearingless permanent magnet motor with ironless outer rotor

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Embodiment Construction

[0023] see figure 1 , transform the first PI controller 11 , the second PI controller 12 , the third PI controller 21 , the fourth PI controller 22 , the first Park inverse transformation module 13 , the second Park inverse transformation module 23 , and the first Park transformation Module 14, second Park transformation module 24, first Clarke transformation module 16, second Clarke transformation module 26, first SVPWM inverter 15, second SVPWM inverter 26 and ironless outer rotor bearingless permanent magnet synchronous motor 27 as a whole is combined into a composite plant 28, the compound plant 28 is equivalent to a fifth-order differential equation model, and the relative order of the system vector is {2, 2, 1}. like figure 2, using the least squares support vector machine 31 with 8 input nodes and 4 output nodes, plus 2 integrators and 3 transfer functions based on input and output to construct a composite controlled object with 8 input nodes and 4 output nodes. Leas...

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Abstract

The invention discloses a method for constructing a decoupling controller of an ironless outer rotor bearingless permanent magnet motor, which comprises a composite controlled object including an iron coreless outer rotor bearingless permanent magnet synchronous motor, and adopts the least squares support vector machine to add 2 Integrators and 3 transfer functions are constructed to form the generalized inverse of the least squares support vector machine. The generalized inverse of the least squares support vector machine and the compound controlled object are connected in series to form two displacement integral pseudo-linear subsystems and a rotational speed integral type. A pseudo-linear system composed of pseudo-linear subsystems, an anti-disturbance closed-loop controller composed of a pre-filter and a displacement regulator is designed for the pseudo-linear system, and the use of the pre-filter in the anti-disturbance closed-loop regulator makes the motor decoupling control. The input signal of the controller is smoother, avoiding the influence of the step signal and the impact signal, so that the output can better follow the command signal. Due to the better following effect, the bandwidth of the controller is significantly improved, thereby improving the performance of the motor decoupling controller. Control performance.

Description

technical field [0001] The invention belongs to the technical field of electric drive control equipment, in particular to a construction method of a decoupling controller of an ironless outer rotor bearingless permanent magnet synchronous motor, which is suitable for high-performance control of an ironless outer rotor bearingless permanent magnet synchronous motor. Background technique [0002] Ironless outer rotor bearingless permanent magnet synchronous motor is a new type of motor that applies bearingless technology and ironless technology to ordinary outer rotor permanent magnet synchronous motor. The bearing winding coil and the stator winding of the motor are stacked together to realize the bearingless of the motor, and the stator material of the motor is replaced from the original magnetically permeable material to a non-magnetically permeable material to realize the coreless of the motor. The ironless outer rotor bearingless permanent magnet synchronous motor not onl...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P21/00H02P21/05H02P27/08H02N15/00
CPCH02P21/0003H02P21/05H02P27/085H02N15/00
Inventor 王鑫朱熀秋
Owner 宁波卓泰电子有限公司
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