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An innovative micro optical element assembly robot characterized by high accuracy and flexibility

A. Würsch, M. Scussat, Reymond Clavel, R. P. Salathé

Year
2002
Citations
9

Abstract

This paper describes a novel robotic assembly station, named Sixtiff, which has been conceived and realized at the Swiss Institute of Technology (EPFL) in Lausanne, Switzerland. This station was developed in order to actively assemble micro-optical devices with high accuracy along six degrees of freedom. This novel robotic system is a hybrid serial-parallel structure with six degrees of freedom. The system is very stiff and since it is not affected by any floating, it is able to guarantee high movement accuracy (linear resolution of 0.25 /spl mu/m, and angular resolution of 1.7 /spl mu/rad). The robot was used to collimate a laser beam with a Doric lens (cylindrical lens with a diameter of 60 /spl mu/m and a focal of 45 /spl mu/m). The distance between the emitting area of the diode and the lens is about 10 /spl mu/m and the alignment was adjusted with an accuracy of 0.5 /spl mu/m.

Keywords

Collimated lightLens (geology)OpticsDegrees of freedom (physics and chemistry)Focal lengthFlexibility (engineering)Computer scienceLaser diodeResolution (logic)Robot

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