Title :
A New Design of a Submicropositioner Utilizing Electromagnetic Actuators and Flexure Mechanism
Author :
Chen, Mei-Yung ; Huang, Hsuan-Han ; Hung, Shao-Kang
Author_Institution :
Dept. of Mechatron. Technol., Nat. Taiwan Normal Univ., Taipei, Taiwan
Abstract :
In this paper, a novel XY-dimensional submicropositioner, including mechanism, control, and analysis, is successfully presented. The design of the submicropositioner utilizes a monolithic parallel flexure mechanism with built-in electromagnetic actuators and optical sensors to achieve the object of 3-DOF precise motion. From the provided experimental results, there are several main goals that have been achieved in this paper: (1) to integrate the electromagnetic actuator and the parallel flexure mechanism for planar positioning system; (2) to establish the mathematical modeling; (3) to develop an advanced adaptive sliding-mode controller; and (4) to perform extensive experiments to test the realistic performance.
Keywords :
adaptive control; bending; electromagnetic actuators; micropositioning; optical sensors; variable structure systems; XY-dimensional submicropositioner; adaptive sliding-mode controller; electromagnetic actuators; flexure mechanism; mathematical modeling; monolithic parallel flexure mechanism; optical sensors; planar positioning system; Adaptive controller; Fabry–Perot interferometer; electromagnetic actuator; modeling; motion control; optical sensor; parallel flexure mechanism; precision positioner; sliding mode controller (SMC);
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2009.2033091
