Material or article handling – Apparatus particularly adapted for charging or discharging a... – Facility includes structure necessitating...
Reexamination Certificate
2002-04-29
2003-06-24
Walsh, Donald P (Department: 3651)
Material or article handling
Apparatus particularly adapted for charging or discharging a...
Facility includes structure necessitating...
Reexamination Certificate
active
06582175
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to an automatically controlled robot (mechanical mechanism) having substantially improved capacity for transferring semiconductor wafers between stations in processing equipment for the manufacture of semiconductors.
BACKGROUND OF THE INVENTION
In the manufacture of semiconductors, such as integrated circuits (ICs), dynamic random access memories (DRAMs), etc., large thin wafers (typically of silicon) from which the semiconductors are fabricated must frequently be transferred from one processing chamber to another. This transfer of wafers must be carried out under conditions of absolute cleanliness and often at sub-atmospheric pressures. To this end various mechanical arrangements have been devised for transferring wafers to and from processing chambers in a piece of equipment or from one piece of equipment to another.
It is the usual practice to load wafers into a cassette so that a number of them can be carried under clean-room conditions safely and efficiently from one place to another. A cassette loaded with wafers is then inserted into an input/output (I/O) chamber (“load lock” chamber) where a desired gas pressure and atmosphere can be established. The wafers are fed one-by-one to or from their respective cassettes into or out of the I/O chamber. It is desirable from the standpoint of efficiency in handling of the wafers that the I/O chamber be located in close proximity to a number of processing chambers to permit more than one wafer to be processed nearby and at the same time. To this end two or more chambers are arranged at locations on the periphery of a transfer chamber which is hermetically sealable and which communicates with both the I/O chamber and the processing chambers. Located within the transfer chamber is an automatically controlled wafer handling mechanism, or robot, which takes, wafers supplied from the I/O chamber and then transfers each wafer into a selected processing chamber. After processing in one chamber a wafer is withdrawn from it by the robot and inserted into another processing chamber, or returned to the I/O chamber and ultimately a respective cassette.
Semiconductor wafers are by their nature fragile and easily chipped or scratched. Therefore they are handled with great care to prevent damage. The robot mechanism which handles a wafer holds it securely, yet without scratching a surface or chipping an edge of the brittle wafers. The robot moves the wafer smoothly without vibration or sudden stops or jerks. Vibration of the robot can cause abrasion between a robot blade holding a wafer and a surface of the wafer. The “dust” or abraded particles of the wafer caused by such vibration can in turn cause surface contamination of other wafers, an undesirable condition. As a result the design of a robot requires careful measures to insure that the movable parts of the robot operate smoothly without lost motion or play, with the requisite gentleness in holding a wafer, yet be able to move the wafer quickly and accurately between locations. Because of these complex requirements, previous robot mechanisms have been unable to handle more than one wafer at a time in the limited space provided within a reasonably sized transfer chamber. It is desirable to provide a robot able to independently handle multiple wafers at the same time thereby increasing the through-put of a wafer-processing apparatus. It is also desirable to be able to place such a multiple-wafer-capacity robot within substantially the same size of transfer chamber as used with previous robots. This also permits ease of fitting a multiple-wafer-capacity robot into wafer processing apparatus of prior design and size.
SUMMARY OF THE INVENTION
In a first aspect of the invention, a multi-set robot is provided that is adapted to transfer multiple substrates. The multi-set robot includes a first robot set having (1) a first motor coupled to a first rotatable member that is rotatable about an axis of rotational symmetry; (2) a second motor coupled to a second rotatable member that is rotatable about the axis of rotational symmetry; (3) a first plurality of blades vertically spaced from one another and each adapted to support a substrate; and (4) a first linkage adapted to enable coordinated movement of the first plurality of blades on rotation of the first and second rotatable members. The multi-set robot also includes at least a second robot set positioned above the first robot set having (1) a third motor coupled to a third rotatable member that is rotatable about the axis of rotational symmetry; (2) a fourth motor coupled to a fourth rotatable member that is rotatable about the axis of rotational symmetry; (3) a second plurality of blades vertically spaced from one another and each adapted to support a substrate; and (4) a second linkage adapted to enable coordinated movement of the second plurality of blades on rotation of the third and fourth rotatable members.
In another aspect of the invention, a processing tool for use in semiconductor device fabrication is provided. The processing tool includes (1) a transfer chamber; (2) a loadlock coupled to the transfer chamber and adapted to provide substrates to the transfer chamber; (3) a first plurality of processing chambers coupled to the transfer chamber and adapted to receive substrates from the transfer chamber at a first elevation or lower; and (4) a second plurality of processing chambers coupled to the transfer chamber and adapted to receive substrates from the transfer chamber at an elevation above the first elevation. The processing tool also includes a transfer mechanism located within the transfer chamber and having (1) a first robot set adapted to rotate about an axis and to transfer substrates between the first plurality of processing chambers; and (2) a second robot set positioned above the first robot set and adapted to rotate about the axis and to transfer substrates between the second plurality of processing chambers independent of the first robot set. Numerous other aspects are provided, as are systems and methods.
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patent: 5789878 (1998-08-01), Kroeker et al.
patent: 5837059 (1998-11-01), Glants
patent: 5993141 (1999-11-01), Wytman
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patent: 6257827 (2001-07-01), Hendrickson et al.
patent: 6450755 (2002-09-01), Cameron et al.
patent: 2003/0012624 (2003-01-01), Kennard et al.
Cox Damon
Elliott Martin R.
Hudgens Jeffrey C.
Pencis Chris
Rice Michael Robert
Applied Materials Inc.
Bower Kenneth W
Dugan & Dugan LLP
Walsh Donald P
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