Abstract: Embodiments disclosed herein generally relate to an apparatus having an anodized gas distribution showerhead. In large area, parallel plate RF processing chambers, mastering the RF return path can be challenging. Arcing is a frequent problem encountered in RF processing chambers. To reduce arcing in RF processing chambers, straps may be coupled to the susceptor to shorten the RF return path, a ceramic or insulating or anodized shadow frame may be coupled to the susceptor during processing, and an anodized coating may be deposited onto the edge of the showerhead that is nearest the chamber walls. The anodized coating may reduce arcing between the showerhead and the chamber walls and therefore enhance film properties and increase deposition rate.

Abstract: A method and apparatus for a transfer robot that having at least one image sensor disposed thereon is provided. The transfer robot includes a lift assembly having a first drive assembly for moving a first platform relative to a second platform in a first linear direction, an end effector assembly disposed on the second platform and movable in a second linear direction by a second drive assembly, the second linear direction being orthogonal to the first linear direction, at least one image sensor, and a lighting device associated with the at least one image sensor.

Abstract: In one embodiment, a diffuser for a deposition chamber includes a plate having edge regions and a center region, and plurality of gas passages comprising an upstream bore and an orifice hole fluidly coupled to the upstream bore that are formed between an upstream side and a downstream side of the plate, and a plurality of grooves surrounding the gas passages, wherein a depth of the grooves varies from the edge regions to the center region of the plate.

Abstract: A method and apparatus for providing an electrically symmetrical ground or return path for electrical current between two electrodes is described. The apparatus includes at least on radio frequency (RF) device coupled to one of the electrodes and between a sidewall and/or a bottom of a processing chamber. The method includes moving one electrode relative to another and realizing a ground return path based on the position of the displaced electrode using one or both of a RF device coupled to a sidewall and the electrode, a RF device coupled to a bottom of the chamber and the electrode, or a combination thereof.

Abstract: A method and apparatus for sealing an opening of a processing chamber are provided. In one embodiment, the invention generally provides a closure member integrated within a wall of a process chamber for sealing an opening within the wall of the chamber. In another embodiment, the invention provides a closure member configured to seal an opening in the wall of a processing chamber from the inside of the chamber.

Abstract: Systems and methods are provided for matching the impedance of a load to an impedance of a power generator. Embodiments include a matching network with a dynamically configurable component assembly array couplable to the variable impedance load and the RF power generator, wherein the component assembly array includes one or more tune and load electrical components. The component assembly array is adapted to be configured for each recipe step, and at least one of the electrical components is a variable impedance component adjustable to reduce RF energy reflected from the variable impedance load for each recipe step. Numerous other aspects are provided.

Abstract: An apparatus for introducing gas into a processing chamber comprising one or more gas distribution tubes having gas-injection holes which may be larger in size, greater in number, and/or spaced closer together at sections of the gas introduction tubes where greater gas conductance through the gas-injection holes is desired. An outside tube having larger gas-injection holes may surround each gas distribution tube. The gas distribution tubes may be fluidically connected to a vacuum foreline to facilitate removal of gas from the gas distribution tube at the end of a process cycle.

Abstract: A guided wave applicator comprising two electrically conductive waveguide walls and a waveguide dielectric. The volume of the waveguide dielectric is composed of non-gaseous dielectric material and is positioned between the two waveguide walls. The waveguide dielectric includes first and second longitudinal ends and includes first, second, third and fourth sides extending longitudinally between the two longitudinal ends. The first waveguide wall is positioned so that it covers the first side of the waveguide dielectric, and the second waveguide wall is positioned so that it covers the second side of the waveguide dielectric. In operation, electrical power can be supplied to one or both longitudinal ends of the waveguide dielectric, whereby the power can be coupled to a plasma through the exposed sides of the waveguide dielectric.

Abstract: A method and apparatus for providing an electrically symmetrical ground or return path for electrical current between two electrodes is described. The apparatus includes at least on radio frequency (RF) device coupled to one of the electrodes and between a sidewall and/or a bottom of a processing chamber. The method includes moving one electrode relative to another and realizing a ground return path based on the position of the displaced electrode using one or both of a RF device coupled to a sidewall and the electrode, a RF device coupled to a bottom of the chamber and the electrode, or a combination thereof.

Abstract: The present invention generally relates to a vertical CVD system having a processing chamber that is capable of processing multiple substrates. The multiple substrates are disposed on opposite sides of the processing source within the processing chamber, yet the processing environments are not isolated from each other. The processing source is a horizontally centered vertical plasma generator that permits multiple substrates to be processed simultaneously on either side of the plasma generator, yet independent of each other. The system is arranged as a twin system whereby two identical processing lines, each with their own processing chamber, are arranged adjacent to each other. Multiple robots are used to load and unload the substrates from the processing system. Each robot can access both processing lines within the system.

Abstract: 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.

Abstract: Systems and methods are provided for matching the impedance of a load to an impedance of a power generator. Embodiments include a matching network with a dynamically configurable component assembly array couplable to the variable impedance load and the RF power generator, wherein the component assembly array includes one or more tune and load electrical components. The component assembly array is adapted to be configured for each recipe step, and at least one of the electrical components is a variable impedance component adjustable to reduce RF energy reflected from the variable impedance load for each recipe step. Numerous other aspects are provided.

Abstract: A compact configurable radio frequency (RF) matching network for matching RF energy output from an RF generator to a variable impedance load is disclosed. The matching network includes an input connector; an output connector; and a component assembly array including one or more tune and load electrical components. At least one of the electrical components is coupled to the input connector, at least one of the electrical components is coupled to the output connector, the component assembly array is adapted to be arranged in a selected topology, and the selected topology is adapted to reduce RF energy reflected from the variable impedance load. Numerous other aspects are provided.

Abstract: Embodiments of the present disclosure provide an apparatus having a remote plasma clean source in which the remote plasma clean source delivers radicals from the remotely generated plasma to the chamber at a location disposed between a backing plate and a diffuser.

Abstract: The embodiments of the disclosure may generally provide a method and apparatus for forming thin film transistor device that includes an indium gallium zinc oxide (IGZO) layer using a multi-component precursor gas. The embodiments of the disclosure may provide a plasma enhanced chemical vapor deposition system configured to form an IGZO layer on large area substrates. However, it should be understood that the disclosure has utility in other system configurations such other types of chemical vapor deposition systems and any other system in which distributing a multi-component precursor gas to and within a process chamber is desired.

Abstract: 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.

Abstract: A transmission line RF applicator apparatus and method for coupling RF power to a plasma in a plasma chamber. The apparatus comprises two conductors, one of which has a plurality of apertures. In one aspect, apertures in different portions of the conductor have different sizes, spacing or orientations. In another aspect, adjacent apertures at successive longitudinal positions are offset along the transverse dimension. In another aspect, the apparatus comprises an inner conductor and one or two outer conductors. The main portion of each of the one or two outer conductors includes a plurality of apertures that extend between an inner surface and an outer surface of the outer conductor.

Abstract: Embodiments of the present invention generally relates to substrate supports for use in a plasma processing chamber. The substrate supports, which are metallic, have ceramic inserts to prevent arcing between the substrate support and the shadow frame used to protect the edges of the substrate support during processing. In large area substrate processing chambers, the shadow frame may comprise multiple pieces. The individual pieces may be coupled together, but spaced slightly apart by a gap to permit thermal expansion. Ceramic inserts are positioned on the substrate support so that when a shadow frame is positioned adjacent thereto, the ceramic inserts are located adjacent the gaps in the shadow frame. The ceramic inserts adjacent the gap prevent and/or reduce the arcing because the gaps are located over electrically insulating material rather than electrically conductive material.

Abstract: Embodiments of the invention generally include shield frame assembly for use with a showerhead assembly, and a showerhead assembly having a shield frame assembly that includes an insulator that tightly fits around the perimeter of a showerhead in a vacuum processing chamber. In one embodiment, a showerhead assembly includes a gas distribution plate and a multi-piece frame assembly that circumscribes a perimeter edge of the gas distribution plate. The multi-piece frame assembly allows for expansion of the gas distribution plate without creating gaps which may lead to arcing. In other embodiments, the insulator is positioned to be have the electric fields concentrated at the perimeter of the gas distribution plate located therein, thereby reducing arcing potential.

Abstract: The embodiments of the disclosure may generally provide a method and apparatus for forming thin film transistor device that includes an indium gallium zinc oxide (IGZO) layer using a multi-component precursor gas. The embodiments of the disclosure may provide a plasma enhanced chemical vapor deposition system configured to form an IGZO layer on large area substrates. However, it should be understood that the disclosure has utility in other system configurations such other types of chemical vapor deposition systems and any other system in which distributing a multi-component precursor gas to and within a process chamber is desired.