Title :
Construction and control of a high precision co-ordinate table
Author_Institution :
BrainWare Ltd., Hungary
Abstract :
With the appearance of micromachined mechanical elements and nanotechnology increased demand can be observed for coordinate tables having submicron position accuracy. The paper describes the construction of a small (100×100mm) high precision (0,01 μm resolution, less then 0,1 μm measuring accuracy over the full range) coordinate table. It was decided to design a modular system with independent metrological and structural frames. The construction enables the application of various measuring element like optical grid or laser interferometer combined with capacitive sensors to supervise the gap between the table and the guiding surface. The table was developed as part of an optical co-ordinate measuring machine intended for the quality control of filaments and filament assemblies for energy saving bulbs.
Keywords :
capacitive sensors; coordinate measuring machines; micromechanical devices; capacitive sensor; coordinate table; energy saving bulb; filament assembly; laser interferometer; metrological frame; micromachined mechanical element; modular system; nanotechnology; optical grid; quality control; structural frame; submicron position accuracy; Acceleration; Assembly; Ceramics; Manufacturing automation; Optical interferometry; Optical sensors; Pulse width modulation; Quality control; Servomotors; Space vector pulse width modulation;
Conference_Titel :
Computational Cybernetics, 2005. ICCC 2005. IEEE 3rd International Conference on
Print_ISBN :
0-7803-9122-5
DOI :
10.1109/ICCCYB.2005.1511550
