High speed tracking control of ball screw drives

Chao Yi Liu; Ruei Yu Huang; An-Chen Lee

doi:10.1088/1757-899X/241/1/012030

High speed tracking control of ball screw drives

Chao Yi Liu, Ruei Yu Huang, An-Chen Lee

Department of Mechanical Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

This paper presents a new method to achieve the requirement of high speed and high precision for ball screw drive. First, a PI controller is adopted to increase the equivalent structural damping in the velocity loop. Next, the design of the position controller is implemented by a two-stage method. The Doubly Coprime Factorization Disturbance Observer (DCFDOB) is developed to suppress disturbance and resist modelling error in the inner loop, while the outer loop is then designed based on method to extend the system bandwidth over first resonant frequency so that high speed and high accuracy can be achieved. Finally, a feedforward controller is implemented to improve tracking performance. The experiment results showed that the proposed method has smaller tracking error and better performance for suppressing disturbance when compared to the conventional cascaded P-PI control.

Original language	English
Article number	012030
Journal	IOP Conference Series: Materials Science and Engineering
Volume	241
Issue number	1
DOIs	https://doi.org/10.1088/1757-899X/241/1/012030
State	Published - 1 Nov 2017
Event	2017 5th Asia Conference on Mechanical and Materials Engineering, ACMME 2017 - Tokyo, Japan Duration: 9 Jun 2017 → 11 Jun 2017

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title = "High speed tracking control of ball screw drives",

abstract = "This paper presents a new method to achieve the requirement of high speed and high precision for ball screw drive. First, a PI controller is adopted to increase the equivalent structural damping in the velocity loop. Next, the design of the position controller is implemented by a two-stage method. The Doubly Coprime Factorization Disturbance Observer (DCFDOB) is developed to suppress disturbance and resist modelling error in the inner loop, while the outer loop is then designed based on method to extend the system bandwidth over first resonant frequency so that high speed and high accuracy can be achieved. Finally, a feedforward controller is implemented to improve tracking performance. The experiment results showed that the proposed method has smaller tracking error and better performance for suppressing disturbance when compared to the conventional cascaded P-PI control.",

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AU - Liu, Chao Yi

AU - Huang, Ruei Yu

AU - Lee, An-Chen

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2017/11/1

Y1 - 2017/11/1

N2 - This paper presents a new method to achieve the requirement of high speed and high precision for ball screw drive. First, a PI controller is adopted to increase the equivalent structural damping in the velocity loop. Next, the design of the position controller is implemented by a two-stage method. The Doubly Coprime Factorization Disturbance Observer (DCFDOB) is developed to suppress disturbance and resist modelling error in the inner loop, while the outer loop is then designed based on method to extend the system bandwidth over first resonant frequency so that high speed and high accuracy can be achieved. Finally, a feedforward controller is implemented to improve tracking performance. The experiment results showed that the proposed method has smaller tracking error and better performance for suppressing disturbance when compared to the conventional cascaded P-PI control.

AB - This paper presents a new method to achieve the requirement of high speed and high precision for ball screw drive. First, a PI controller is adopted to increase the equivalent structural damping in the velocity loop. Next, the design of the position controller is implemented by a two-stage method. The Doubly Coprime Factorization Disturbance Observer (DCFDOB) is developed to suppress disturbance and resist modelling error in the inner loop, while the outer loop is then designed based on method to extend the system bandwidth over first resonant frequency so that high speed and high accuracy can be achieved. Finally, a feedforward controller is implemented to improve tracking performance. The experiment results showed that the proposed method has smaller tracking error and better performance for suppressing disturbance when compared to the conventional cascaded P-PI control.

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SN - 1757-8981

VL - 241

JO - IOP Conference Series: Materials Science and Engineering

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T2 - 2017 5th Asia Conference on Mechanical and Materials Engineering, ACMME 2017

Y2 - 9 June 2017 through 11 June 2017

ER -

High speed tracking control of ball screw drives

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