| Patent application number | Description | Published |
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| 20090014127 | SYSTEMS FOR PLASMA ENHANCED CHEMICAL VAPOR DEPOSITION AND BEVEL EDGE ETCHING - Embodiments described herein relate to a substrate processing system that integrates substrate edge processing capabilities. Illustrated examples of the processing system include, without limitations, a factory interface, a loadlock chamber, a transfer chamber, and one or more twin process chambers having two or more processing regions that are isolatable from each other and share a common gas supply and a common exhaust pump. The processing regions in each twin process chamber include separate gas distribution assemblies and RF power sources to provide plasma at selective regions on a substrate surface in each processing region. Each twin process chamber is thereby configured to allow multiple, isolated processes to be performed concurrently on at least two substrates in the processing regions. | 01-15-2009 |
| 20090017635 | APPARATUS AND METHOD FOR PROCESSING A SUBSTRATE EDGE REGION - The present invention comprises an apparatus and method for etching at a substrate edge region. In one embodiment, the apparatus comprises a chamber having a process volume, a substrate support arranged inside the process volume and having a substrate support surface, a plasma generator coupled to the chamber and configured to supply an etching agent in a plasma phase to a peripheral region of the substrate support surface, and a gas delivery assembly coupled to a gas source for generating a radial gas flow over the substrate support surface from an approximately central region of the substrate support surface toward the peripheral region of the substrate support surface. | 01-15-2009 |
| 20090044753 | METHODS TO IMPROVE THE IN-FILM DEFECTIVITY OF PECVD AMORPHOUS CARBON FILMS - An article having a protective coating for use in semiconductor applications and methods for making the same are provided. In certain embodiments, a method of coating an aluminum surface of an article utilized in a semiconductor processing chamber is provided. The method comprises providing a processing chamber; placing the article into the processing chamber; flowing a first gas comprising a carbon source into the processing chamber; flowing a second gas comprising a nitrogen source into the processing chamber; forming a plasma in the chamber; and depositing a coating material on the aluminum surface. In certain embodiments, the coating material comprises an amorphous carbon nitrogen containing layer. In certain embodiments, the article comprises a showerhead configured to deliver a gas to the processing chamber. | 02-19-2009 |
| 20090269512 | NONPLANAR FACEPLATE FOR A PLASMA PROCESSING CHAMBER - A method and apparatus for adjust local plasma density during a plasma process. One embodiment provides an electrode assembly comprising a conductive faceplate having a nonplanar surface. The nonplanar surface is configured to face a substrate during processing and the conductive faceplate is disposed so that the nonplanar surface is opposing a substrate support having an electrode. The conductive faceplate and the substrate support form a plasma volume. The nonplanar surface is configured to adjust electric field between the conductive plate and the electrode by varying a distance between the conductive plate and the electrode. | 10-29-2009 |
| 20090314208 | PEDESTAL HEATER FOR LOW TEMPERATURE PECVD APPLICATION - A method and apparatus for providing power to a heated support pedestal is provided. In one embodiment, a process kit is described. The process kit includes a hollow shaft made of a conductive material coupled to a substrate support at one end and a base assembly at an opposing end, the base assembly adapted to couple to a power box disposed on a semiconductor processing tool. In one embodiment, the base assembly comprises at least one exposed electrical connector disposed in an insert made of a dielectric material, such as a plastic resin. | 12-24-2009 |
| 20110034034 | DUAL TEMPERATURE HEATER - A method and apparatus for heating a substrate in a chamber are provided. an apparatus for positioning a substrate in a processing chamber. In one embodiment, the apparatus comprises a substrate support assembly having a support surface adapted to receive the substrate and a plurality of centering members for supporting the substrate at a distance parallel to the support surface and for centering the substrate relative to a reference axis substantially perpendicular to the support surface. The plurality of the centering members are movably disposed along a periphery of the support surface, and each of the plurality of centering members comprises a first end portion for either contacting or supporting a peripheral edge of the substrate. | 02-10-2011 |
| 20110147363 | MULTIFUNCTIONAL HEATER/CHILLER PEDESTAL FOR WIDE RANGE WAFER TEMPERATURE CONTROL - Embodiments of the invention generally relate to a semiconductor processing chamber and, more specifically, a heated support pedestal for a semiconductor processing chamber. In one embodiment, a pedestal for a semiconductor processing chamber is provided. The pedestal comprises a substrate support comprising a conductive material and having a support surface for receiving a substrate, a resistive heater encapsulated within the substrate support, a hollow shaft coupled to the substrate support at a first end and a mating interface at an opposing end, the hollow shaft comprising a shaft body having a hollow core, and a cooling channel assembly encircling the hollow core and disposed within the shaft body for removing heat from the pedestal via an internal cooling path, wherein the substrate support has a heat control gap positioned between the heating element and the ring-shaped cooling channel. | 06-23-2011 |
| 20110294303 | CONFINED PROCESS VOLUME PECVD CHAMBER - An apparatus for plasma processing a substrate is provided. The apparatus comprises a processing chamber, a substrate support disposed in the processing chamber, a shield member disposed in the processing chamber below the substrate support, and a lid assembly coupled to the processing chamber. The lid assembly comprises a conductive gas distributor coupled to a power source, and an electrode separated from the conductive gas distributor and the chamber body by electrical insulators. The electrode is also coupled to a source of electric power. The substrate support is formed with a stiffness that permits very little departure from parallelism. The shield member thermally shields a substrate transfer opening in the lower portion of the chamber body. A pumping plenum is located below the substrate support processing position, and is spaced apart therefrom. | 12-01-2011 |
