Patent application number | Description | Published |
20080282982 | APPARATUS AND METHOD FOR DEPOSITION OVER LARGE AREA SUBSTRATES - The present invention generally relates to an inductively coupled plasma apparatus. When depositing utilizing a plasma generated from a showerhead, the plasma may not be evenly distributed to the edge of the substrate. By inductively coupling plasma to the chamber in an area corresponding to the chamber walls, the plasma distribution within the chamber may be evenly distributed and deposition upon the substrate may be substantially even. By vaporizing the processing gas prior to entry into the processing chamber, the plasma may also be even and thus contribute to an even deposition on the substrate. | 11-20-2008 |
20080292811 | CHAMBER IDLE PROCESS FOR IMPROVED REPEATABILITY OF FILMS - Methods and apparatus for improving the substrate-to-substrate uniformity of silicon-containing films deposited by vapor deposition of precursors vaporized from a liquid source on substrates in a chamber are provided. The methods include exposing a chamber to a processing step at a predetermined time that is after one substrate is processed in the chamber and is before the next substrate is processed in the chamber. In one aspect, the processing step includes introducing a flow of a silicon-containing precursor into the chamber for a period of time. In another aspect, the processing step includes exposing the chamber to a gas in the presence or absence of a plasma for a period of time. | 11-27-2008 |
20110290183 | Plasma Uniformity Control By Gas Diffuser Hole Design - Embodiments of a gas diffuser plate for distributing gas in a processing chamber are provided. The gas distribution plate includes a diffuser plate having an upstream side and a downstream side, and a plurality of gas passages passing between the upstream and downstream sides of the diffuser plate. The gas passages include hollow cathode cavities at the downstream side to enhance plasma ionization. The depths, the diameters, the surface area and density of hollow cathode cavities of the gas passages that extend to the downstream end can be gradually increased from the center to the edge of the diffuser plate to improve the film thickness and property uniformity across the substrate. The increasing diameters, depths and surface areas from the center to the edge of the diffuser plate can be created by bending the diffuser plate toward downstream side, followed by machining out the convex downstream side. Bending the diffuser plate can be accomplished by a thermal process or a vacuum process. The increasing diameters, depths and surface areas from the center to the edge of the diffuser plate can also be created computer numerically controlled machining. Diffuser plates with gradually increasing diameters, depths and surface areas of the hollow cathode cavities from the center to the edge of the diffuser plate have been shown to produce improved uniformities of film thickness and film properties. | 12-01-2011 |
20120009347 | PRECISE TEMPERATURE CONTROL FOR TEOS APPLICATION BY HEAT TRANSFER FLUID - Embodiments of the invention generally provide a mixing block for mixing precursors and/or cleaning agent which has the advantage of maintaining the temperature and improving the mixing effect of the precursors, cleaning agent or the mixture thereof to eliminate the substrate-to-substrate variation, thereby providing improved process uniformity. | 01-12-2012 |
20120009356 | CONTAMINATION REDUCING LINER FOR INDUCTIVELY COUPLED CHAMBER - A method and apparatus for depositing a film through a plasma enhance chemical vapor deposition process is provided. In one embodiment, an apparatus includes a processing chamber having a coil disposed in the chamber and routed proximate the chamber wall. A liner is disposed over the coil and is protected by a coating of a material, wherein the coating of material has a film property similar to the liner. In one embodiment, the liner is a silicon containing material and is protected by the coating of the material. Thus, in the event that some of the protective coating of material is inadvertently sputtered, the sputter material is not a source of contamination if deposited on the substrate along with the deposited deposition film on the substrate. | 01-12-2012 |
20120027918 | SHOWERHEAD SUPPORT STRUCTURE FOR IMPROVED GAS FLOW - Embodiments of the present invention generally provide apparatus and methods for supporting a gas distribution showerhead in a processing chamber. In one embodiment, a gas distribution showerhead for a vacuum chamber is provided. The gas distribution showerhead comprises a body having a first side and a second side opposite the first side, and a plurality of gas passages formed through the body, the gas passages comprising a first bore formed in the first side that is fluidly coupled to a second bore formed in the second side by a restricting orifice, and a suspension feature formed in the first bore of at least one of the gas passages. | 02-02-2012 |
20130004681 | MINI BLOCKER PLATE WITH STANDOFF SPACERS - Embodiments of the present invention provide a plasma processing chamber having a mini blocker plate for delivering processing gas to a processing chamber and methods to use the mini blocker plate to improve uniformity. The blocker plate assembly comprising a mini blocker plate having a plurality of through holes, and two or more standoff spacers configured to position the mini blocker plate at a distance away from a blocker plate. | 01-03-2013 |
20130087783 | METHODS FOR DEPOSITING A SILICON CONTAINING LAYER WITH ARGON GAS DILUTION - Embodiments of the disclosure generally provide methods of forming a silicon containing layers in TFT devices. The silicon can be used to form the active channel in a LTPS TFT or be utilized as an element in a gate dielectric layer, a passivation layer or even an etch stop layer. The silicon containing layer is deposited by a vapor deposition process whereby an inert gas, such as argon, is introduced along with the silicon precursor. The inert gas functions to drive out weak, dangling silicon-hydrogen bonds or silicon-silicon bonds so that strong silicon-silicon or silicon-oxygen bonds remain to form a substantially hydrogen free silicon containing layer. | 04-11-2013 |
20130263782 | FLIP EDGE SHADOW FRAME - Device for processing a substrate are described herein. An apparatus for controlling deposition on a substrate can include a chamber comprising a shadow frame support, a substrate support comprising a substrate supporting surface, a shadow frame with a shadow frame body including a first support surface, a second support surface opposite the first surface, and a detachable lip connected with the shadow frame body. The detachable lip can include a support connection, a first lip surface facing the substrate, a second lip surface opposite the first lip surface, a first edge positioned over the first support surface, and a second edge opposite the first edge to contact the substrate. | 10-10-2013 |
20140251216 | FLIP EDGE SHADOW FRAME - Device for processing a substrate are described herein. An apparatus for controlling deposition on a substrate can include a chamber comprising a shadow frame support, a substrate support comprising a substrate supporting surface, a shadow frame with a shadow frame body including a first support surface, a second support surface opposite the first surface, and a detachable lip connected with the shadow frame body. The detachable lip can include a support connection, a first lip surface facing the substrate, a second lip surface opposite the first lip surface, a first edge positioned over the first support surface, and a second edge opposite the first edge to contact the substrate. | 09-11-2014 |