Abrading – Precision device or process - or with condition responsive... – With indicating
Reexamination Certificate
1999-10-08
2004-04-06
Wilson, Lee D. (Department: 3723)
Abrading
Precision device or process - or with condition responsive...
With indicating
C451S332000, C451S339000
Reexamination Certificate
active
06716086
ABSTRACT:
BACKGROUND OF THE DISCLOSURE
1. Field of Invention
The present invention relates generally to a semiconductor wafer chemical mechanical polishing system. More specifically, the invention relates to a loadcup for positioning a workpiece or semiconductor wafer into a retaining ring of a chemical mechanical polishing system.
2. Background of Prior Art
In semiconductor wafer processing, the use of chemical mechanical polishing, or CMP, has gained favor due to the enhanced ability to stack multiple feature layers on a semiconductor workpiece, or wafer. As the demand for polishing wafers as part of a semiconductor fabrication process increases, the requirement for higher processing rates while minimizing risk of wafer damage and contamination has correspondingly experienced greater urgency for improvement.
Two such CMP systems that address these issues are described in a patent to Perlov et al. (U.S. Pat. No. 5,804,507, issued Sep. 8, 1998) and in a patent to Tolles et al. (U.S. Pat. No. 5,738,574, issued Apr. 15, 1998). The Perlov et al. and Tolles et al. patents are hereby incorporated by reference. The Perlov et al. and Tolles et al. patents disclose a CMP system having a polishing apparatus that is supplied wafers from cassettes located in an adjacent liquid filled bath. A transfer mechanism, or robot, facilitates the transfer of the wafers from the bath to a transfer station.
A pedestal within the transfer station rises to receive the wafer from the robot. The wafer is released from the robot and secured, or chucked, to the pedestal by a vacuum chuck. The pedestal is then retracted into the transfer station wherein the wafer is released temporarily from the pedestal so that a plurality of alignment jaws may manipulate the wafer into a position centered upon the pedestal. The wafer is then re-chucked to the pedestal and the pedestal rises to engage and transfer the wafer to a retaining ring of a polishing head. The alignment of the wafer to the center of the pedestal ensures that the wafer will be properly fixtured into the retaining ring.
After the wafer is fixtured into the retaining ring, a carousel delivers the retaining ring and wafer to a polishing station. After completion of the polishing process, the wafer is returned back through the pedestal to the proper cassette located in the bath.
Although this process has proven to be an efficient mechanism for loading and unloading wafers into and out of the chemical mechanical polishing system, an improvement has been identified which could enhance the transfer of the wafer into the retaining ring, reducing the risk of wafer damage and contamination, while increasing the centering accuracy of the wafer on the pedestal chuck and to the retaining ring, and improving the reliability of wafer loading, minimized wafer breakage, and lowered particulate contamination to the wafer inprocess.
More specifically, the process of aligning the wafer to the center of the pedestal requires raising and lowering the pedestal. Elimination of the need to lower the pedestal into the transfer station would improve the routing time require to process each wafer, and yield a corresponding increase in wafer throughput. Additionally, as the process of alignment requires both contact of the alignment jaws to the wafer and the physical sliding of the wafer upon the pedestal, both actions incur the possibility of wafer damage and particulate contamination. This is of special concern since any abrasion, scratching or other damage would be occurring on the feature side of the wafer.
Therefore, there is a need in the art for an apparatus that facilitates wafer transfer into a CMP retaining ring wherein centering accuracy of the wafer to the pedestal chuck and the retaining ring is improved, while minimizing wafer breakage and particulate contamination.
SUMMARY OF INVENTION
The disadvantages associated with the prior art are overcome by the present invention of an edge contact loadcup for positioning a semiconductor wafer in a fixture such as a retaining ring of a Chemical Mechanical Polishing system. More specifically, the edge contact loadcup or loadcup comprises a cone and a workpiece (or wafer) chuck connected to one another by a flexure. The flexure prevents lateral movement of the workpiece chuck in relation to cone, while permitting axial movement between the wafer chuck and the cone.
A semiconductor workpiece, or wafer, is placed on the elevated wafer chuck by a transfer mechanism (or robot). The cone and the wafer chuck have an inner tapered surface that centers the wafer by edge contact. Once the wafer is positioned inside the cone, a first actuator is activated to move the cone upwards to interface with the retaining ring that is used to hold the wafer during chemical mechanical polishing. The cone aligns concentrically with the retaining ring as the cone and the retaining ring mate, thus, correspondingly concentrically aligning the wafer with the retaining ring. The chuck and the wafer chuck to continue moving vertically after the cone has seated in the retaining ring, until the wafer is loaded into the retaining ring.
A wafer sensing device is optionally incorporated into the loadcup mechanism. The sensing device comprises at least one fluid portal. Fluid exiting the portal impinges upon the wafer, creating a back pressure. The back pressure of the fluid is sensed to indicate the presence and/or proper alignment of the wafer.
REFERENCES:
patent: 5329732 (1994-07-01), Karlsrud et al.
patent: 5738574 (1998-04-01), Tolles et al.
patent: 5762543 (1998-06-01), Kasprzyk et al.
patent: 5934984 (1999-08-01), Togawa et al.
patent: 5947802 (1999-09-01), Zhang et al.
patent: 6074275 (2000-06-01), Yashiki et al.
patent: 6131589 (2000-10-01), Vogtmann et al.
patent: 0347718 (1989-12-01), None
patent: 1323350 (1987-07-01), None
patent: WO 99/41022 (1999-08-01), None
Shanley David
Wilson Lee D.
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