Title :
Novel Modeling and Damping Technique for Hybrid Stepper Motor
Author :
Tsui, Kenneth WangHay ; Cheung, Norbert Chow ; Yuen, Kadett Chi-Wah
Author_Institution :
ASM Assembly Autom. Ltd., Hong Kong
Abstract :
It is well known that commercial hybrid stepper system has one or more low-speed resonant points. However, this characteristic cannot be accurately modeled without high-order equations or complicated measurement of motor parameters. In this paper, a novel approach is proposed to model the behavior of a commercial 1.8deg hybrid stepper motor accurately and efficiently. Also, model-based damping algorithms for both open-loop control and servo control are proposed. Simulation and experimental results show that the proposed algorithms can effectively eliminate low-speed resonance and vibration of the stepper system. The algorithms are efficient enough to be implemented on commercial DSP-based controllers without sacrificing motion control performance.
Keywords :
digital control; machine control; open loop systems; stepping motors; DSP-based controllers; damping technique; high-order equations; hybrid stepper motor; low-speed resonant points; model-based damping algorithms; motion control performance; motor parameter measurement; open-loop control; servo control; Damping; Stepper motors; modeling; resonances;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2008.2008791
