Title :
Design of a low cost submicron measuring probe
Author_Institution :
Budapest Tech, Budapest
Abstract :
In this paper a new low cost design is presented. The moving element of the probe head consists of the stylus and a crossform intermediate body with a small aluminium enhanced mirror at the two ends and at the center. The intermediate body is suspended on four springs made of berillium-copper foils. The displacement of the probe tip is calculated from the displacement and the rotations of the mirrors measured by modified optical pick-ups. In order to test probes a calibration system with 20 nm measuring uncertainty was designed. A high precision three-axis translation stage, with a working range of 100 times 100 times 100 mum, moves the probe stylus and the position of the stage is determined by three mutually-orthogonal plane mirror laser interferometer transducers having 1 nm resolution.
Keywords :
calibration; light interferometers; measurement uncertainty; transducers; berillium-copper foils; calibration system; crossform intermediate body; laser interferometer transducers; low cost submicron measuring probe; measuring uncertainty; mutually-orthogonal plane mirror; optical pick-ups; stylus; three- axis translation stage; Aluminum; Calibration; Costs; Displacement measurement; Mirrors; Optical interferometry; Probes; Rotation measurement; Springs; System testing;
Conference_Titel :
Applied Machine Intelligence and Informatics, 2009. SAMI 2009. 7th International Symposium on
Conference_Location :
Herl´any
Print_ISBN :
978-1-4244-3801-3
Electronic_ISBN :
978-1-4244-3802-0
DOI :
10.1109/SAMI.2009.4956616
