Title :
Fuzzy logic applied to speed control of a stepping motor drive
Author :
Betin, Franck ; Pinchon, Daniel ; Capolino, Gérard-André
Author_Institution :
Dept. of Electr. Eng., Univ. of Picardie Jules Verne, Cuffies, France
fDate :
6/1/2000 12:00:00 AM
Abstract :
Nowadays, thanks to the development of microprocessors, stepping motors are widely used in robotics and in the numerical control of machine tools where they have to perform high-precision positioning operations. Nevertheless, the variations of the mechanical configuration of the drive, which are common to these two applications, can lead to a loss of synchronism for high stepping rates. Moreover, the classical open-loop speed control is weak and a closed-loop control becomes necessary. In this paper, the fuzzy logic principle is applied to control the speed of a stepping motor drive with feedback. An advanced test bed is used in order to evaluate the tracking properties and the robustness capacities of the fuzzy logic controller when variations of the mechanical configuration occur. The experiment has been performed using a low-cost 16 bit microcontroller in order to verify the design performance
Keywords :
angular velocity control; closed loop systems; fuzzy control; machine control; microcontrollers; motor drives; numerical control; robust control; stepping motors; closed-loop control; design performance; feedback; fuzzy logic; fuzzy logic controller; high stepping rates; high-precision positioning operations; loss of synchronism; machine tools; mechanical configuration; microcontroller; microprocessors; numerical control; robotics; robustness; speed control; stepping motor drive; tracking properties; Computer numerical control; Feedback; Fuzzy logic; Machine tools; Micromotors; Microprocessors; Motor drives; Open loop systems; Robots; Velocity control;
Journal_Title :
Industrial Electronics, IEEE Transactions on
