This thesis presents the analysis, design and development of a multi-axis machinery numerical control system. The purpose of this research is to provide a numerical control method to overcome the multi-axis numerical control problem. The control system includes an IBM-PC computer as a host processor, a plug in multimotor controller board based on commercial numerical motor controller ICs. These implement a software specified digital control algorithm and output a PWM control number. Six motors, their driven actuators, and digital incremental feedback encoders complete the system. IV The experimental aspects of the work included the design of the IBM-PC plug in motor controller board and the motor drive board, computer software for real-time control and the system testing. For the theoretical aspects of the work, control theory was used to develop the mathematical model of the system. This aimed at providing a tool to predict and optimize the system performance, therefore, to fulfill the high positioning and high precision control task.
[1]
J. Pierce.
Satellite Communication.
,
1961,
Science.
[2]
G. R. Dunlop.
Multi-axis step motor control
,
1986
.
[3]
D. McCloy,et al.
Robotics: an introduction
,
1986
.
[4]
Francis H. Raven.
Automatic control engineering : solutions manual to accompany
,
1978
.
[5]
Benjamin C. Kuo,et al.
Digital Control Systems
,
1977
.
[6]
Benjamin C. Kuo,et al.
DC motors and control systems
,
1978
.
[7]
P. J. Lawrenson,et al.
Stepping Motors: a Guide to Modern Theory and Practice
,
1983
.
[8]
C. Burrus,et al.
Discrete-time systems
,
1975
.
[9]
J. Schwarzenbach.
System modelling and control
,
1978
.
[10]
Gary B. Lamont,et al.
Digital control systems--theory, hardware, software
,
1985
.
[11]
O. Jacobs,et al.
Introduction to Control Theory
,
1976,
IEEE Transactions on Systems, Man, and Cybernetics.