Coating apparatus – Gas or vapor deposition – Work support
Reexamination Certificate
2001-02-28
2003-06-03
Mills, Gregory (Department: 1763)
Coating apparatus
Gas or vapor deposition
Work support
C156S345510, C156S345540, C118S500000
Reexamination Certificate
active
06572708
ABSTRACT:
BACKGROUND OF THE DISCLOSURE
1. Field of Invention
The present invention relates generally to an apparatus for processing semiconductor wafers. More specifically, the invention relates to a lift-pin assembly for moving semiconductor wafer using in a semiconductor wafer-processing chamber.
2. Description of the Background Art
Integrated circuits have evolved into complex devices that include millions of transistors, capacitors and resistors on a single chip. The evolution of chip design results in faster circuitry and greater circuit density. As the demand for integrated circuits continues to rise, chip manufactures have demanded semiconductor process tooling having increased wafer throughput and greater product yield. To meet this increase in throughput, tooling is being developed to process wider diameter wafers, for example, wafers having diameters of 300 millimeters (mm).
Processing chambers generally capable of processing 300 mm substrates transport and support the substrate by a lift-pin assembly. Such lift-pin assembly can be used for temporarily supporting the substrates during transfer, thermal, chemical, optical and other treatments of the substrate. In order to transfer a substrate such as a wafer into a substrate processing chamber, it is conventional to utilize a robot arm and lift-pin assembly such as the types disclosed in U.S. Pat. Nos. 4,431,473, and 5,215,619. Specifically, a wafer is supported by three pins dispersed approximately 120 degrees apart and projecting from a lifter ring. The lifter ring is attached to a robotic arm. The lift-pins are supported on the lifter ring forming part of a substrate support assembly wherein the lifter ring is movable in a vertical direction between upper and lower positions. The lifter ring is movable such that the lift-pins have an upper surface located above the substrate support surface of the substrate holder when the lifter is in the upper position. Furthermore, the upper surface of the lift-pin is below the substrate support surface when the lifter ring is in the lower position. Thus, part of each lift-pin passes through a respective lift-pin hole in the substrate support when the lifter ring moves from either the lower position to the upper position. To drive the lifter ring, an actuator, such as a conventional pneumatic cylinder is generally used. The cylinder drives the lifter ring in the up or down positions, which in turn drive the lift-pins that raise or lower the wafer.
One problem that has been observed is that the lift-pins may bind as they pass through the lift-pin holes in the substrate support. Another problem is that the increased size in the industry from 200 mm to 300 mm wafers requires redesign of the processing chambers and accordingly, the lift-pin assemblies with regard to their configuration with other components in the substrate support assembly.
Therefore, there is a need in the art for a lift-pin assembly that does not bind in the lift-pin holes of the substrate support as the pins are raised or lowered. Moreover, it would be desirable for such a processing system to minimize the number of components and provide ease of serviceability.
SUMMARY OF INVENTION
The disadvantages associated with the prior art are overcome by the present invention of a semiconductor processing system comprising a chamber body that has a sidewall and at least one support arm extending radially inwards therefrom. A support platform is coupled to the support arm and centrally disposed in the chamber body. Disposed above the support platform is a base having a centrally disposed recess, and a substrate support is disposed over said base.
The system additionally features a lift-arm assembly for actuating a plurality of modular lift-pin assemblies. Each modular lift-pin assembly comprises a lift-pin having a distal end and a connector having a lift-pin end and an actuator end. The lift-pin end of the connector is coupled to the distal end of the lift-pin and an actuator pin is then coupled to the actuator end of the connector to actuate the lift-pin through the connector.
A plurality of lift-pin holes extends through the support platform, the base, the substrate support, and circumscribe the centrally disposed recess. Each of the modular lift-pin assemblies respectively extends (i.e., slidably extends) through the plurality of lift-pin holes, and a C-shaped lift-arm assembly disposed below the base engages the plurality of lift-pin assemblies to raise and lower a semiconductor wafer. The lift-arm assembly passes into a slot in the support platform, thus reducing the space required below the support platform to operate the lift-pins. The reduced space requirement allows for the support platform to be positioned closer to a pumping stack and thereby increasing the conductance of gases through the chamber.
REFERENCES:
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Pang et al. “Apparatus for Cleaning a Semiconductor Process Chamber” U.S. patent application Ser. No. 09/721,060, filed Nov. 21, 2000.
Cho Thomas K.
Gujer Rudolf
Ishikawa Tetsuya
Karazim Michael P.
Pang Lily L.
Applied Materials Inc.
Kackar Ram N
Mills Gregory
Moser Patterson & Sheridan
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