Title :
Relative coupling strategy
Author :
Perez-Pinal, Francisco J. ; Calderon, Gerardo ; Araujo-Vargas, Ismael
Author_Institution :
ESIME, Instituto Politecnico Nacional, Mexico City, Mexico
Abstract :
Multi-motor arrangements have grown as an important field in the manufacturing process where high-performance applications that are able to achieve precise control of position, speed, acceleration, and deceleration are required. Several approaches exist for such synchronisation control all of them with the main aim to synchronize multiple machine axes and to emulate the actions of the mechanism they replace. However, so far little work has been done in the relative speed and position error between axes during the start-up, shutdown conditions and under load impacts on any motor. This paper present a novel multi-motor synchronisation strategy called relative coupled strategy, which can be easily applied into a real industrial environment. This novel approach is specifically compared with the electronic (virtual) line shaft. Results are presented showing the ability of the novel and current strategies to cope with different load conditions.
Keywords :
angular velocity control; feedback; machine control; motor drives; process control; synchronisation; acceleration control; deceleration control; electronic line shaft; feedback; high-performance applications; load impacts; manufacturing process; multi-motor arrangements; multi-motor synchronisation strategy; multiple machine axes synchronisation; position control; precise control; real industrial environment; relative coupling strategy; shutdown; speed control; start-up; synchronisation control; virtual line shaft; Acceleration; Circuit topology; Couplings; Cranes; Error correction; Load management; Manufacturing industries; Manufacturing processes; Printing; Shafts;
Conference_Titel :
Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International
Print_ISBN :
0-7803-7817-2
DOI :
10.1109/IEMDC.2003.1210387
