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Apparatus for alignment of automated workpiece handling systems
| Details |
Inventors: Schauer, Ronald Vern; Lappen, Alan Rick;
Assignee: Applied Materials, Inc (Santa Clara, CA)
Primary Examiner: Tran; Khoi H.
Assistant Examiner:
Attorney, Agent or Firm: Konrad Raynes Victor & Mann, LLP, Bach; Joseph
An alignment tool, method and system are provided for aligning a robot blade in a workpiece handling system, in which the tool comprises a frame or fixture adapted to be supported by a transfer chamber support surface or other support surface in the system, in which the frame has one or more non-contact distance sensors positioned to measure the distance of a workpiece or robot blade from the sensor or a predetermined reference point or surface. In one embodiment, the frame is used to align a robot blade relative to a robot support alignment surface in a robot chamber. In another embodiment, the frame emulates a workpiece cassette and the distance sensors provide an output to align the robot blade to a cassette support alignment surface. As a consequence, accidental scratching and breakage of workpieces such as semiconductor wafers and display substrates may be reduced or eliminated. In another embodiment, positions of distance sensors may be readily repositioned to accommodate alignment procedures for different sized wafers or other workpieces. |
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DETAILED DESCRIPTION S The present inventions are, in one aspect, directed to an alignment tool, method and system for aligning a robot blade in a workpiece handling system, in which the tool comprises a frame or fixture adapted to be supported by a support surface in the system, and in which the frame has one or more distance sensors positioned to measure the distance of a workpiece or robot blade from the sensor or a predetermined reference point or surface.
In one embodiment, the frame is placed on a chamber floor reference surface so that non-contact type distance sensors can directly measure the spatial orientation of a workpiece held by the robot blade within a frame opening relative to the chamber.
In another embodiment, the frame emulates a workpiece cassette and the distance sensors provide a numerical output of the distance to the workpiece.
As explained in greater detail below, these distance measurements facilitate accurately leveling the robot blade.
As a consequence, accidental scratching and breakage of workpieces such as semiconductor wafers and display substrates may be reduced or eliminated.
In another aspect of the present inventions, the tool is adapted to facilitate ready repositioning of the distance sensors to accommodate aligning robot blades for wafers or other workpieces of different sizes.
In the illustrated embodiment, releasable fasteners are removed and the distance sensors are reversed in orientation and refastened to the tool to shift the field of view of the sensors.
In another aspect of the present inventions, the frame has a predetermined reference surface positioned opposite the distance sensors of the frame.
In a preferred embodiment, the frame reference surface is accurately positioned by the frame to be at a predetermined orientation and distance from a base reference point or surface such as a chamber floor or a cassette handler support surface.
As a consequence, as explained in greater detail below, distance measurements to the workpiece or robot blade may be output as offsets from this predetermined frame reference surface which significantly facilitates calibrating the distance sensors
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Control Computers 
