Patent application number | Description | Published |
20080276868 | RIGID RF TRANSMISSION LINE WITH EASY REMOVAL SECTION - An RF feed for a processing apparatus is disclosed. Coupling an RF generator to an RF matching network by a rigid RF feed lessens the amount of power that is lost during transmission from the generator to the matching network. The rigid RF feed comprises an inverted J shaped section that decouples the generator from the matching network whenever servicing the chamber is necessary. The J shape section has two parallel portions coupled together by a perpendicular portion. The J shaped section may be removed as a one piece assembly by uncoupling the J shaped section at a location disposed near the top of the chamber and a location near the floor of the chamber. The connections between the J shaped section and the remainder of the RF feed face the same direction to ensure easy coupling and decoupling without twisting and/or bending any portion of the rigid RF feed. | 11-13-2008 |
20090008239 | REMOTE INDUCTIVELY COUPLED PLASMA SOURCE FOR CVD CHAMBER CLEANING - The present invention generally includes a remote plasma source and a method of generating a plasma in a remote plasma source. Cleaning gas may be ignited into a plasma in a remote location and then provided to the processing chamber. By flowing the cleaning gas outside of a cooled RF coil, a plasma may be ignited at either high or low pressure while providing a high RF bias to the coil. Cooling the RF coil may reduce sputtering of the coil and thus reduce undesirable contaminants from being fed to the processing chamber with the cleaning gas plasma. Reduced sputtering from the coil may extend the useful life of the remote plasma source. | 01-08-2009 |
20090022905 | RF CHOKE FOR GAS DELIVERY TO AN RF DRIVEN ELECTRODE IN A PLASMA PROCESSING APPARATUS - In large area plasma processing systems, process gases may be introduced to the chamber via the showerhead assembly which may be driven as an RF electrode. The gas feed tube, which is grounded, is electrically isolated from the showerhead. The gas feed tube may provide not only process gases, but also cleaning gases from a remote plasma source to the process chamber. The inside of the gas feed tube may remain at either a low RF field or a zero RF field to avoid premature gas breakdown within the gas feed tube that may lead to parasitic plasma formation between the gas source and the showerhead. By feeding the gas through an RF choke, the RF field and the processing gas may be introduced to the processing chamber through a common location and thus simplify the chamber design. | 01-22-2009 |
20090159423 | Asymmetrical RF Drive for Electrode of Plasma Chamber - RF power is coupled to one or more RF drive points ( | 06-25-2009 |
20090197015 | METHOD AND APPARATUS FOR CONTROLLING PLASMA UNIFORMITY - Systems, methods, and apparatus involve a plasma processing chamber for depositing a film on a substrate. The plasma processing chamber includes a lid assembly having a ground plate, a backing plate, and a non-uniformity existing between the ground plate and the backing plate. The non-uniformity may interfere with RF wave uniformity and cause an impedance imbalance between portions of the ground plate and backing plate. The non-uniformity may include a structure or a reduced spacing of non-uniform surfaces. A reduced spacing of non-uniform surfaces may exist where a first distance between the ground plate and the backing plate at a first end is different from a second distance between the ground plate and the backing plate at a second end. The structure may be from 2 cm to 10 cm thick, cover from 20% to 50% of the backing plate, and be located away from a discontinuity existing inside the chamber. | 08-06-2009 |
20100089319 | RF RETURN PATH FOR LARGE PLASMA PROCESSING CHAMBER - A method and apparatus having a RF return path with low impedance coupling a substrate support to a chamber wall in a plasma processing system is provided. In one embodiment, a processing chamber includes a chamber body having a chamber sidewall, a bottom and a lid assembly supported by the chamber sidewall defining a processing region, a substrate support disposed in the processing region of the chamber body, a shadow frame disposed on an edge of the substrate support assembly, and a RF return path having a first end coupled to the shadow frame and a second end coupled to the chamber sidewall. | 04-15-2010 |
20100196626 | GROUND RETURN FOR PLASMA PROCESSES - 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. | 08-05-2010 |
20100206483 | RF Bus and RF Return Bus for Plasma Chamber Electrode - For coupling RF power from an RF input of a plasma chamber to the interior of a plasma chamber, an RF bus conductor is connected between the RF input and a plasma chamber electrode. In one embodiment, an RF return bus conductor is connected to an electrically grounded wall of the chamber, and the RF bus conductor and the RF return bus conductor have respective surfaces that are parallel and face each other. In another embodiment, the RF bus conductor has a transverse cross section having a longest dimension oriented perpendicular to the surface of the plasma chamber electrode that is closest to the RF bus conductor. | 08-19-2010 |
20110135844 | LARGE AREA PLASMA PROCESSING CHAMBER WITH AT-ELECTRODE RF MATCHING - A plasma processing system having at-electrode RF matching and a method for processing substrates utilizing the same is provided. In one embodiment, the plasma processing system includes a chamber body, the substrate support, an electrode, a lid assembly and an RF tuning element. A substrate support is disposed in a processing volume defined in the chamber body. The electrode is positioned above the substrate support and below a cover of the lid assembly. The RF tuning element is disposed between the cover and the electrode and is coupled to the electrode. | 06-09-2011 |
20110259362 | APPARATUS AND METHODS FOR USING HIGH FREQUENCY CHOKES IN A SUBSTRATE DEPOSITION APPARATUS - In certain aspects, a substrate deposition apparatus, including a gas tube coupled to a gas source, an RF power source and a substrate processing chamber, is provided. The gas tube is adapted to carry process gas and cleaning plasma from the gas source/remote plasma gas source to the substrate processing chamber and the RF power source is adapted to couple RF power to the substrate processing chamber. Furthermore an RF choke coupled to the RF power source and the gas source wherein the RF choke is adapted to attenuate a voltage difference between the RF power source and the gas source to prevent plasma formation in the gas tube during substrate processing. Numerous other aspects are provided. | 10-27-2011 |
20120149194 | Substrate Support with Gas Introduction Openings - Embodiments disclosed herein generally relate to an apparatus and a method for placing a substrate substantially flush against a substrate support in a processing chamber. When a large area substrate is placed onto a substrate support, the substrate may not be perfectly flush against the substrate support due to gas pockets that may be present between the substrate and the substrate support. The gas pockets can lead to uneven deposition on the substrate. Therefore, pulling the gas from between the substrate and the support may pull the substrate substantially flush against the support. During deposition, an electrostatic charge can build up and cause the substrate to stick to the substrate support. By introducing a gas between the substrate and the substrate support, the electrostatic forces may be overcome so that the substrate can be separated from the susceptor with less or no plasma support which takes extra time and gas. | 06-14-2012 |
20120217874 | Plasma Source with Vertical Gradient - A plasma source includes upper and lower portions. In a first aspect, an electrical power source supplies greater power to the upper portion than to the lower portion. In a second aspect, the plasma source includes three or more power couplers that are spaced apart vertically, wherein the number of plasma power couplers in the upper portion is greater than the number of plasma power couplers in the lower portion. The upper and lower portions of the plasma source can be defined as respectively above and below a horizontal geometric plane that bisects the vertical height of the plasma source. Alternatively, the upper and lower portions can be defined as respectively above and below a horizontal geometric plane that bisects the combined area of first and second workpiece positions. | 08-30-2012 |
20120326592 | Transmission Line RF Applicator for Plasma Chamber - A transmission line RF applicator apparatus and method for coupling RF power to a plasma in a plasma chamber. 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. | 12-27-2012 |
20130068161 | GAS DELIVERY AND DISTRIBUTION FOR UNIFORM PROCESS IN LINEAR-TYPE LARGE-AREA PLASMA REACTOR - 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. | 03-21-2013 |
20130126331 | Guided Wave Applicator with Non-Gaseous Dielectric for Plasma Chamber - 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. | 05-23-2013 |
20130186859 | Asymmetrical RF Drive for Electrode of Plasma Chamber - RF power is coupled to one or more RF drive points ( | 07-25-2013 |
20130206068 | LINEAR PECVD APPARATUS - The present invention generally relates to a linear PECVD apparatus. The apparatus is designed to process two substrates simultaneously so that the substrates share plasma sources as well as gas sources. The apparatus has a plurality of microwave sources centrally disposed within the chamber body of the apparatus. The substrates are disposed on opposite sides of the microwave sources with the gas sources disposed between the microwave sources and the substrates. The shared microwave sources and gas sources permit multiple substrates to be processed simultaneously and reduce the processing cost per substrate. | 08-15-2013 |
20130221833 | Transmission line RF applicator for plasma chamber - A transmission line RF applicator apparatus and method for coupling RF power to a plasma in a plasma chamber. 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. | 08-29-2013 |
20140216344 | RF CHOKE FOR GAS DELIVERY TO AN RF DRIVEN ELECTRODE IN A PLASMA PROCESSING APPARATUS - In large area plasma processing systems, process gases may be introduced to the chamber via the showerhead assembly which may be driven as an RF electrode. The gas feed tube, which is grounded, is electrically isolated from the showerhead. The gas feed tube may provide not only process gases, but also cleaning gases from a remote plasma source to the process chamber. The inside of the gas feed tube may remain at either a low RF field or a zero RF field to avoid premature gas breakdown within the gas feed tube that may lead to parasitic plasma formation between the gas source and the showerhead. By feeding the gas through an RF choke, the RF field and the processing gas may be introduced to the processing chamber through a common location and thus simplify the chamber design. | 08-07-2014 |