Servo control strategy and system for simultaneously eliminating counter potential and load torque disturbance

一种负载转矩、伺服控制的技术,应用在伺服控制策略及其系统领域,能够解决未同时考虑被控电机电气参数、尚未发现负载转矩和反电势扰动等问题

Active Publication Date: 2017-03-22
SHANDONG UNIV
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Problems solved by technology

[0015] (2) The existing scheme has not considered the changes of electrical parameters (such as resistance, inductance) and mechanical parameters (such as moment of inertia, stick-slip damping coefficient) of the controlled motor (including DC, AC asynchronous and synchronous, and permanent magnet brushless, etc.) )The change;
But so far, no scheme has been found to simultaneously estimate the load torque and back EMF disturbance using two extended state observers

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  • Servo control strategy and system for simultaneously eliminating counter potential and load torque disturbance
  • Servo control strategy and system for simultaneously eliminating counter potential and load torque disturbance
  • Servo control strategy and system for simultaneously eliminating counter potential and load torque disturbance

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Embodiment Construction

[0058] The present invention will be further described below in conjunction with accompanying drawings and examples.

[0059] (1) The traditional back EMF disturbance observer uses the inverse model of the system to estimate the back EMF, and its disadvantage is that the change of system parameters (armature inductance, winding resistance) will affect the estimation accuracy of the back EMF. Unlike the traditional disturbance observer scheme, which only estimates the back EMF, the present invention adopts the Extended State Observer (ESO, Extended State Observer) ESO1 based on the state space model of the electrical part, which can estimate all the back EMF information in the controlled motor. All disturbances in the electrical part are observed, and the system block diagram is shown in figure 1 shown.

[0060] figure 1 In the dotted box, ESO1 is used to estimate the total disturbance of the electrical part (including the back EMF), which uses the nominal model of the armatu...

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Abstract

The invention discloses a servo control strategy and system for simultaneously eliminating a counter potential and load torque disturbance. Based on a nominal model of an armature winding, total disturbance of an electrical part is estimated according to voltages externally applied to two ends of an armature and a detection value of an armature current, and the disturbance is offset by a feedforward compensation part; the residual disturbance of the counter potential is eliminated by combining feedback and adjustment of the armature current; an inner ring of the system is built by a combination step of feedforward control for eliminating electrical total disturbance and current feedback control; based on a nominal mode of a transmission system, the total disturbance of a mechanical part is determined according to the armature current and actual rotational speed information, and the disturbance is offset by the feedforward compensation part; by combining feedback and adjustment of the rotational speed, the residual disturbance of the load torque is eliminated; and an outer ring of the system is built by the combination step of feedforward control for eliminating mechanical total disturbance and rotational speed feedback control. By the servo control strategy, the disturbance of two different time scales is eliminated, and the interference resistant capability and the dynamic and static performance of the servo system are greatly improved.

Description

technical field [0001] The invention relates to a servo control strategy and system for simultaneously eliminating counter electromotive force and load torque disturbance. Background technique [0002] Servo control technology is widely used in robotics, high-speed rail, electric vehicles, CNC machine tools, aviation, aerospace and other fields. In order to obtain a high-performance closed-loop servo control system, it is necessary to solve the following two basic problems: (1) How to obtain the feedback information required to form a closed-loop system; (2) How to design the control strategy of the servo control system. [0003] For the former, as far as the servo system is concerned, the required feedback information involves such as current, voltage, speed, and position, among which the current (or voltage) information can be directly measured by sensors (such as Hall or transformers, detection resistors, etc.) get. Position information can be directly measured by senso...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02P21/00H02P21/14H02P21/20
CPCH02P21/0003H02P21/0017H02P21/14H02P6/182H02P23/12H02P6/34H02P8/12H02P21/13
Inventor 刘锦波
Owner SHANDONG UNIV
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