Position control for linear motion servo system via nominal characteristic trajectory following controller

Motion control system is a challenging problem in the area of control systems. It is very useful to demonstrate concepts in linear control such as the stabilization of unstable systems. Motion control system plays important roles in industrial equipment such as machine tools, semiconductor man...

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Bibliographic Details
Main Author: Jalani, Noor Hisham
Format: Thesis
Language:English
English
English
Published: 2008
Subjects:
Online Access:http://eprints.uthm.edu.my/7377/1/24p%20NOOR%20HISHAM%20JALANI.pdf
http://eprints.uthm.edu.my/7377/2/NOOR%20HISHAM%20JALANI%20COPYRIGHT%20DECLARATION.pdf
http://eprints.uthm.edu.my/7377/3/NOOR%20HISHAM%20JALANI%20WATERMARK.pdf
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Summary:Motion control system is a challenging problem in the area of control systems. It is very useful to demonstrate concepts in linear control such as the stabilization of unstable systems. Motion control system plays important roles in industrial equipment such as machine tools, semiconductor manufacturing systems and robot systems. One type of motion control systems is point-to-point (PTP) positioning system, which is used to move an object from one point to another point. Linear motion servo system is a machine that move cart from one point to another point. This system consists of a cart driven by a DC motor, via a rack and pinion mechanism to ensure consistent and continuous traction. Up to now many types of controllers have been proposed and evaluated for positioning systems. Two type of controller that discussed in this thesis are Proportional-Velocity (PV) and Nominal Characteristic Trajectory Following (NCTF). The experimental results showed that the PV was successfully implemented which controlled the settling time, rise time and steady-state error of the desired position. However, the overshoot performances show its disadvantages. Additionally, the PV controller design is time consuming process, since model and parameters of the linear motion servo system are needed. Therefore, the needs for higher performance controller become important for the simplicity of the controller design. Hence, the investigation proceed with the non-model based NCTF controller was to control the cart position of the linear motion servo system. The NCTF controller consists of a Nominal Characteristic Trajectory (NCT) and PI compensator. The NCTF controller was designed based on a simple open-loop experiment of the object. The experimental results showed that the NCTF controller is more effective for controlling position oflinear motion servo system than the PV controller.