Robotic micro-assembly of microparts using a piezogripper

This paper deals with robotic micro-assembly of silicon micro-objects whose sizes are tens of micrometers. This production means is one of a more promising approach to realize 3D and/or hybrid microsystems. Current works in robotic micro-assembly are focused on the assembly of micro-objects on a large substrate. We are focusing in the study of micro-parts assembly to build microscopic subsystems usable in larger products. This approach requires specific functionalities like a dasiamicro-visepsila required to block the first object during assembly. Original strategies are proposed and applied on an experimental robotic structure composed of micropositioning stages, videomicroscopes, piezogripper, and silicon end-effectors. Some experimental teleoperated micro-assemblies has validated the proposed methods and the reliability of the principles. Future works will be focused on micro-assembly automation.