Patent application number | Description | Published |
20090017190 | Movable injectors in rotating disc gas reactors - A system and method for uniform deposition of material layers on wafers in a rotating disk chemical vapor deposition reaction system is provided, wherein one or more substrates are rotated on a carrier about an axis while maintaining surfaces of the one or more substrates substantially perpendicular to the axis of rotation and facing in an upstream direction along the axis of rotation. During rotating a first gas is discharged in the downstream direction towards the one or more substrates from a first set of gas inlets. A second gas is discharged in the downstream direction towards the one or more substrates from at least one movable gas injector, and the at least one movable gas inlet is moved with a component of motion in a radial direction towards or away from the axis of rotation. | 01-15-2009 |
20100087050 | Chemical vapor deposition with energy input - Methods of depositing compound semiconductors onto substrates are disclosed, including directing gaseous reactants into a reaction chamber containing the substrates, selectively supplying energy to one of the gaseous reactants in order to impart sufficient energy to activate that reactant but insufficient to decompose the reactant, and then decomposing the reactant at the surface of the substrate in order to react with the other reactants. The preferred energy source is microwave or infrared radiation, and reactors for carrying out these methods are also disclosed. | 04-08-2010 |
20100310766 | Roll-to-Roll Chemical Vapor Deposition System - A roll-to-roll CVD system includes at least two rollers that transport a web through a deposition chamber during CVD processing. The deposition chamber defines a passage for the web to pass through while being transported by the at least two rollers. The deposition chamber includes a plurality of process chambers that are isolated by barriers which maintain separate process chemistry in each of the plurality of process chambers. Each of the plurality of process chambers includes a gas input port and a gas exhaust port, and a plurality of CVD gas sources. At least two of the plurality of CVD gas sources is coupled to the gas input port of each of the plurality of process chambers. | 12-09-2010 |
20100310769 | Continuous Feed Chemical Vapor Deposition System - A continuous feed CVD system includes a wafer transport mechanism that transport a wafer through a deposition chamber during CVD processing. The deposition chamber defines a passage for the wafer to pass through while being transported by the wafer transport mechanism. The deposition chamber includes a plurality of process chambers that are isolated by barriers which maintain separate process chemistry in each of the plurality of process chambers. Each of the plurality of process chambers includes a gas input port and a gas exhaust port, and a plurality of CVD gas sources. At least two of the plurality of CVD gas sources are coupled to the gas input port of each of the plurality of process chambers. | 12-09-2010 |
20110215071 | WAFER CARRIER WITH SLOPED EDGE - A wafer carrier includes a body defining a central axis, a generally planar top surface perpendicular to the central axis, and pockets recessed below the top surface for receiving wafers. The body can include a lip projecting upwardly around the periphery of the top surface. The lip can define a lip surface sloping upwardly from the planar top surface in a radially outward direction away from the central axis. The body can be adapted for mounting on a spindle of a processing apparatus so that the central axis of the body is coaxial with the spindle. The lip can improve the pattern of gas flow over the top surface of the wafer carrier. | 09-08-2011 |
20110297076 | APPARATUS AND METHOD FOR BATCH NON-CONTACT MATERIAL CHARACTERIZATION - An apparatus for performing non-contact material characterization includes a wafer carrier adapted to hold a plurality of substrates and a material characterization device, such as a device for performing photoluminescence spectroscopy. The apparatus is adapted to perform non-contact material characterization on at least a portion of the wafer carrier, including the substrates disposed thereon. | 12-08-2011 |
20110300645 | APPARATUS AND METHOD FOR BATCH NON-CONTACT MATERIAL CHARACTERIZATION - An apparatus for performing non-contact material characterization includes a wafer carrier adapted to hold a plurality of substrates and a material characterization device, such as a device for performing photoluminescence spectroscopy. The apparatus is adapted to perform non-contact material characterization on at least a portion of the wafer carrier, including the substrates disposed thereon. | 12-08-2011 |
20120058630 | Linear Cluster Deposition System - A linear cluster deposition system includes a plurality of reaction chambers positioned in a linear horizontal arrangement. First and second reactant gas manifolds are coupled to respective process gas input port of each of the reaction chambers. An exhaust gas manifold having a plurality of exhaust gas inputs is coupled to the exhaust gas output port of each of the plurality of reaction chambers. A substrate transport vehicle transports at least one of a substrate and a substrate carrier that supports at least one substrate into and out of substrate transfer ports of each of the reaction chambers. At least one of a flow rate of process gas into the process gas input port of each of the reaction chambers and a pressure in each of the reaction chambers being chosen so that process conditions are substantially the same in at least two of the reaction chambers. | 03-08-2012 |
20120070916 | MOVABLE INJECTORS IN ROTATING DISC GAS REACTORS - A system and method for uniform deposition of material layers on wafers in a rotating disk chemical vapor deposition reaction system is provided, wherein one or more substrates are rotated on a carrier about an axis while maintaining surfaces of the one or more substrates substantially perpendicular to the axis of rotation and facing in an upstream direction along the axis of rotation. During rotating a first gas is discharged in the downstream direction towards the one or more substrates from a first set of gas inlets. A second gas is discharged in the downstream direction towards the one or more substrates from at least one movable gas injector, and the at least one movable gas inlet is moved with a component of motion in a radial direction towards or away from the axis of rotation. | 03-22-2012 |
20120156363 | Gas Injection System for Chemical Vapor Deposition Using Sequenced Valves - A gas injection system for a chemical vapor deposition system includes a gas manifold comprising a plurality of valves where each of the plurality of valves has an input that is coupled to a process gas source and an output for providing process gas. Each of a plurality of gas injectors has an input that is coupled to the output of one of the plurality of valves and an output that is positioned in one of a plurality of zones in a chemical vapor deposition reactor. A controller having a plurality of outputs where each of the plurality of outputs is coupled to a control input of one of the plurality of valves. The controller instructs at least some of the plurality of valves to open at predetermined times to provide a desired gas flow to each of the plurality of zones in the chemical vapor deposition reactor. | 06-21-2012 |
20120156374 | SECTIONAL WAFER CARRIER - A structure for a chemical vapor deposition reactor includes a support element defining oppositely-facing substantially planar upper and lower surfaces and a vertical rotational axis substantially perpendicular to the upper and lower surfaces, and a plurality of carrier sections releasably engaged with the support element. Each carrier section can include oppositely-facing substantially planar top and bottom surfaces and at least one aperture extending between the top and bottom surfaces. The carrier sections can be disposed on the support element with the bottom surfaces of the carrier sections facing toward the upper surface of the support element, so that wafers can be held in the apertures of the carrier sections with one surface of each wafer confronting the support element and an opposite surface exposed at the top surface of the carrier sections. | 06-21-2012 |
20120248336 | Apparatus and Method for Batch Non-Contact Material Characterization - An apparatus for performing non-contact material characterization includes a wafer carrier adapted to hold a plurality of substrates and a material characterization device, such as a device for performing photoluminescence spectroscopy. The apparatus is adapted to perform non-contact material characterization on at least a portion of the wafer carrier, including the substrates disposed thereon. | 10-04-2012 |
20120304926 | HEATED WAFER CARRIER PROFILING - An apparatus includes a carrier rotatable about an axis of rotation where the carrier has a top surface adapted to hold at least one semiconductor wafer and a surface characterization tool which is operative to move over a plurality of positions relative to the top surface of the carrier and/or the wafer transverse to the axis of rotation. The surface characterization tool is operative to move over a plurality of positions relative to the top surface of the carrier and/or the wafer transverse to the axis of rotation and is further adapted to produce characterization signals over the plurality of positions on at least a portion of the carrier and/or on at least a portion of said major surface of the wafer as the carrier rotates. | 12-06-2012 |
20120307233 | HEATED WAFER CARRIER PROFILING - A method for characterizing a surface comprises rotating a carrier about an axis of rotation where the carrier has a top surface adapted to hold at least one semiconductor wafer with a major surface of the wafer extending generally transverse to the axis of rotation. A surface characterization tool is moved over a plurality of positions relative to the top surface of the carrier, where a measurement location over the top surface of the carrier is changed while said top surface of the carrier is heated to a predetermined temperature. Characterization signals over the plurality of positions with the surface characterization tool are produced and contain information about the heated top surface of the carrier, or when semiconductor wafers are held on the carrier, information about the semiconductor wafer can also be obtained. | 12-06-2012 |
20140060153 | APPARATUS AND METHOD FOR IMPROVED ACOUSTICAL TRANSFORMATION - An acoustical transformer having a last matching section that includes a protective barrier of low permeability. The protective barrier is in contact with a test medium. In one embodiment, the protective barrier comprises one or more low permeability layers, such as a metallic foil or metallic coating(s) disposed on a low impedance layer such as polyimide, so that the low impedance layer and the protective barrier constitute the last matching section of the acoustical transformer. In other embodiments, the protective barrier comprises a fluoropolymer. A method for determining the thicknesses of the various layers of the acoustical transformer for enhanced performance is also disclosed. | 03-06-2014 |
20140318453 | CHEMICAL VAPOR DEPOSITION WITH ENERGY INPUT - Methods of depositing compound semiconductors onto substrates are disclosed, including directing gaseous reactants into a reaction chamber containing the substrates, selectively supplying energy to one of the gaseous reactants in order to impart sufficient energy to activate that reactant but insufficient to decompose the reactant, and then decomposing the reactant at the surface of the substrate in order to react with the other reactants. The preferred energy source is microwave or infrared radiation, and reactors for carrying out these methods are also disclosed. | 10-30-2014 |