Title :
Development of a real-time servo control test bench
Author :
Tsai, Mi-Ching ; Chou, Chung-Chi ; Hsieh, Min-Fu
Author_Institution :
Dept. of Mech. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
fDate :
11/1/1997 12:00:00 AM
Abstract :
Servomechanism control problems generally include velocity control, position or tracking control, force control, and multiaxial (synchronous) motion control. This paper presents an innovative real-time system, named “Servomechanism Control Test Bench” (SCTB), designed to provide a benchmark for robust control experiments. The system, including hardware and software, combines a unique experimental apparatus with an easy-to-use software platform based on Matlab, Simulink, and dSPACE. The servomechanism hardware, which is a modular set of motors and drive shafts, can be easily reconfigured to set up a variety of experiments. The software, which consists of a user interfere and a real-time control program, provides an opportunity for users to implement control design on-line and verify the performance of the controllers. Using this integrated setup, servo control design-evaluate-experiment cycles may be completed on a real-time test rig in only a few minutes
Keywords :
angular velocity control; digital simulation; electric machine analysis computing; force control; machine control; machine testing; motion control; motor drives; position control; real-time systems; robust control; servomotors; user interfaces; Matlab; Servomechanism Control Test Bench; Simulink; dSPACE; design-evaluate-experiment cycles; drive shafts; force control; multiaxial motion control; position control; real-time control program; real-time servo control test bench; robust control experiments; servomechanism control; software platform; tracking control; user interfere; velocity control; Control systems; Force control; Hardware; Motion control; Real time systems; Servomechanisms; Servosystems; Testing; Tracking; Velocity control;
Journal_Title :
Education, IEEE Transactions on
