Patent ID: 9019510
Filing Date: 2015-04-28
Classification: H01J

Abstract:
1. Control method for positioning a stage using a plurality of two pairs of laser positioning units, comprising steps of: Running each said laser positioning unit which composed of a laser beam, a mirror, and an optical position sensor; Projecting said laser beam from a laser diode onto said mirror by rotating first fine rotation stage which holds said laser diode; Reflecting said laser beam from said mirror onto a stationary optical position sensor by rotating second fine rotation stage which holds said mirror; Detecting position of said laser beam on said optical position sensor which is rigidly mounted on a stationary base; Positioning said stage with at least two said laser positioning units in each moving direction; Before operation, setting said first fine rotation stage and said second fine rotation stage in said first pair of laser positioning unit to starting position of full range or any other position, and set said first fine rotation stage and said second fine rotation stage in said second pair of laser positioning unit to middle position of full range or an other position that different from said position in said first pair of laser positioning unit; Before operation, adjusting said first fine rotation stage and said second fine rotation stage in said a plurality of two pairs of laser positioning units, and adjusting first coarse rotation stage which holds said first fine stage and second coarse rotation stage which hold said second fine stage in said a plurality of two pairs of laser positioning units, so that said laser beam is reflected from said mirror onto said optical position sensor; During operation, when said stage moves, rotating said first fine rotation stages and said second fine stages in said a plurality of pair of laser positioning units, so that said laser can be continuously reflected by said mirror onto said photodiodes sensor; During operation, returning said first fine rotation stage and said second fine rotation stage in said second pair of laser positioning unit to starting position or any other position if said first fine rotation stage and said second fine rotation stage in said second pair of laser positioning unit reaches moving limit, by rotating said first coarse rotation stage which holds said first fine rotation stage in said second pair of laser positioning unit, and by rotating said second coarse rotation stage which holds said second fine rotation stage in said second pair of laser positioning unit, by constantly keeping laser beam projected on said photodiodes sensor; During operation, returning said first fine rotation stage or said second fine rotation stage in said first pair of laser positioning unit to starting position or any other position if said first fine rotation stage or said second fine rotation stage in said first pair of laser positioning unit reaches moving limit, by rotating said first coarse rotation stage which holds said first fine rotation stage in said first pair of laser positioning unit, or by rotating said second coarse rotation stage which holds said second fine rotation stage in said first pair of laser positioning unit b constantly keeping laser beam projected on said photodiodes sensor; Re-calibrating positions of said first fine rotation stage and said second fine rotation stage in said plurality of pair of laser positioning units if said first coarse rotation stage or said second coarse rotation stage rotates at a time in said plurality of pair of laser positioning units, by the positions of said first fine rotation stage or said second fine rotation stage in other said a plurality of pair of laser positioning units when said first coarse rotation stage or said second coarse rotation stage does not move at said time; Calculating positions of said stage which holds said mirror, based on the amounts of rotations of said first fine rotation stage and said second fine rotation stage in each pair of said laser positioning unit, based on the position of laser beam on said optical position sensor, and based on geometry of triangle among physical positions of said mirror, said laser diode, and said optical position sensor; Controlling and positioning said stage based on the position of said mirror which sits on said stage firmly; Calculating position of said stage by computer programming; Controlling rotation of said fine stage and said coarse stage by computer programming; Controlling a tilting stage in order to correct the moving deflections and errors for said platform; and Repeating above operations by running a plurality of said laser positioning units simultaneously.