Patent application number | Description | Published |
20080274297 | Asymmetric Grounding of Rectangular Susceptor - An asymmetrically grounded susceptor used in a plasma processing chamber for chemical vapor deposition onto large rectangular panels supported on and grounded by the susceptor. A plurality of grounding straps are connected between the periphery of the susceptor to the grounded vacuum chamber to shorten the grounding paths for RF electrons. Flexible straps allow the susceptor to vertically move. The straps provide a conductance to ground which is asymmetric around the periphery. The straps may be evenly spaced but have different thicknesses or different shapes or be removed from available grounding point and hence provide different RF conductances. The asymmetry is selected to improve the deposition uniformity and other qualities of the PECVD deposited film. | 11-06-2008 |
20080286463 | RF SHUTTER - The present invention generally comprises an RF shutter assembly for use in a plasma processing apparatus. The RF shutter assembly may reduce the amount of plasma creep below the substrate and shadow frame during processing, thereby reducing the amount of deposition that occurs on undesired surfaces. By reducing the amount of deposition on undesired surfaces, particle flaking and thus, substrate contamination may be reduced. | 11-20-2008 |
20090023241 | CLEAN RATE IMPROVEMENT BY PRESSURE CONTROLLED REMOTE PLASMA SOURCE - The present invention generally comprises a method for cleaning a large area substrate processing chamber. As chamber volume increases, it has surprisingly been found that simply scaling up the cleaning conditions may not effectively clean silicon from the exposed chamber surfaces. Undesired silicon deposits on exposed chamber surfaces may lead to contamination in solar panel formation. Increasing the pressure of the chamber to about 10 Torr or greater while maintaining the chamber at a temperature between about 150 degrees Celsius and 250 degrees Celsius increases plasma cleaning effectiveness such that silicon deposits are removed from the chamber. The combination of high pressure and low temperature may reduce substrate contamination without sacrificing substrate throughput in solar panel fabrication. | 01-22-2009 |
20090107955 | OFFSET LINER FOR CHAMBER EVACUATION - The present invention generally includes a chamber liner spaced from a chamber wall to permit processing gases to be pulled between the chamber liner and the chamber wall when withdrawing gases from the processing chamber. When the vacuum pump is below the susceptor, processing gases will be drawn below the susceptor and may lead to undesired deposition onto process chamber components. Additionally, the processing gases will be pulled past the slit valve opening and potentially deposit within the slit valve opening. When material deposits in the slit valve opening, flaking may occur and contaminate the substrates. By drawing the processing gases along the sidewalls other than the one having the slit valve opening therethrough, undesired deposition on the slit valve opening may be reduced. | 04-30-2009 |
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 |
20090238734 | SUSCEPTOR WITH ROLL-FORMED SURFACE AND METHOD FOR MAKING SAME - The present invention generally provides apparatus for supporting a large area substrate in a plasma reactor. One embodiment, a substrate support for using in a plasma reactor includes an electrically conductive body has a top surface with a plurality of roll-formed indents. | 09-24-2009 |
20090255798 | METHOD TO PREVENT PARASITIC PLASMA GENERATION IN GAS FEEDTHRU OF LARGE SIZE PECVD CHAMBER - The present invention generally includes a plasma enhanced chemical vapor deposition (PECVD) processing chamber having an RF power source coupled to the backing plate at a location separate from the gas source. By feeding the gas into the processing chamber at a location separate from the RF power, parasitic plasma formation in the gas tubes leading to the processing chamber may be reduced. The gas may be fed to the chamber at a plurality of locations. At each location, the gas may be fed to the processing chamber from the gas source by passing through a remote plasma source as well as an RF choke or RF resistor. | 10-15-2009 |
20090258162 | PLASMA PROCESSING APPARATUS AND METHOD - The present invention generally includes a plasma enhanced chemical vapor deposition (PECVD) processing chamber having an RF power source coupled to the backing plate at a location separate from the gas source. By feeding the gas into the processing chamber at a location separate from the RF power, parasitic plasma formation in the gas tubes leading to the processing chamber may be reduced. The gas may be fed to the chamber at a plurality of locations. At each location, the gas may be fed to the processing chamber from the gas source by passing through a remote plasma source as well as an RF choke or RF resistor. | 10-15-2009 |
20090283039 | ROBUST OUTLET PLUMBING FOR HIGH POWER FLOW REMOTE PLASMA SOURCE - The present invention generally includes a coupling between components. When igniting a plasma remote from a processing chamber, the reactive gas ions may travel to the processing chamber through numerous components. The reactive gas ions may be quite hot and cause the various components to become very hot and thus, the seals between apparatus components may fail. Therefore, it may be beneficial to cool any metallic components through which the reactive gas ions may travel. However, at the interface between the cooled metallic component and a ceramic component, the ceramic component may experience a temperature gradient sufficient to crack the ceramic material due to the heat of the reactive gas ions and the coolness of the metallic component. Therefore, extending a flange of the metallic component into the ceramic component may lessen the temperature gradient at the interface and reduce cracking of the ceramic component. | 11-19-2009 |
20100151688 | METHOD TO PREVENT THIN SPOT IN LARGE SIZE SYSTEM - Embodiments disclosed herein generally include methods of ensuring uniform deposition on a substrate. The smallest gap between a portion of the substrate and the substrate support upon which the substrate rests may lead to uneven deposition of material or ‘thin spots’ on the substrate. Large area substrates, due to their size, are susceptible to numerous gaps at random locations. By inducing an electrostatic charge on the substrate prior to placing the substrate onto the substrate support, the substrate may be placed generally flush against the substrate support. The electrostatic charge on the substrate creates an attraction between the substrate and substrate support to pull substantially the entire surface of the substrate into contact with the substrate support. Material may then be substantially uniformly deposited on the substrate while reducing ‘thin spots’. | 06-17-2010 |
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 |
20100288197 | ANODIZED SHOWERHEAD - 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. | 11-18-2010 |
20110041873 | Method of cleaning a CVD processing chamber - We have a method of improving the deposition rate uniformity of the chemical vapor deposition (CVD) of films when a number of substrates are processed in series, sequentially in a deposition chamber. The method includes the plasma pre-heating of at least one processing volume structure within the processing volume which surrounds the substrate when the substrate is present in the deposition chamber. We also have a device-controlled method which adjusts the deposition time for a few substrates at the beginning of the processing of a number of substrates in series, sequentially in a deposition chamber, so that the deposited film thickness remains essentially constant during processing of the series of substrates. A combination of these methods into a single method provides the best overall results in terms of controlling average film thickness from substrate to substrate. | 02-24-2011 |
20110146577 | SHOWERHEAD WITH INSULATED CORNER REGIONS - Embodiments of the present invention generally relate to a gas distribution showerhead having insulated corner regions to reduce arcing and improve deposition uniformity control. In one embodiment, the gas distribution showerhead is formed of a conductive material with material from the corner regions removed. Corner members formed substantially in the shape of the removed portion of corner regions are attached to the conductive showerhead. The corner members may be made of a material having electrical insulating properties, such as a ceramic or insulating polymer. | 06-23-2011 |
20110236599 | Plasma processing including asymmetrically grounding a susceptor - An asymmetrically grounded susceptor used in a plasma processing chamber for chemical vapor deposition onto large rectangular panels supported on and grounded by the susceptor. A plurality of grounding straps are connected between the periphery of the susceptor to the grounded vacuum chamber to shorten the grounding paths for RF electrons. Flexible straps allow the susceptor to vertically move. The straps provide a conductance to ground which is asymmetric around the periphery. The straps may be evenly spaced but have different thicknesses or different shapes or be removed from available grounding point and hence provide different RF conductances. The asymmetry is selected to improve the deposition uniformity and other qualities of the PECVD deposited film. | 09-29-2011 |
20110269274 | THIN FILM TRANSISTORS HAVING MULTIPLE DOPED SILICON LAYERS - Embodiments of the present invention generally relate to a TFT and a method for its fabrication. The TFT disclosed herein is a silicon based TFT in which the active channel comprises amorphous silicon. Over the amorphous silicon, multiple layers of doped silicon are deposited in which the resistivity of the doped silicon layers is higher at the interface with the amorphous silicon layer as compared to the interface with the source and drain electrodes. Alternatively, a single doped silicon layer is deposited over the amorphous silicon in which the properties of the single doped layer change throughout the thickness. It is better to have a lower resistivity at the interface with the source and drain electrodes, but lower resistivity usually means less substrate throughput. By utilizing multiple or graded layers, low resistivity can be achieved. The embodiments disclosed herein include low resistivity without sacrificing substrate throughput. | 11-03-2011 |
20110284100 | TIGHTLY FITTED CERAMIC INSULATOR ON LARGE AREA ELECTRODE - 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. | 11-24-2011 |
20120040536 | A-SI SEASONING EFFECT TO IMPROVE SIN RUN-TO-RUN UNIFORMITY - Embodiments of the present invention provide methods for depositing a nitrogen-containing material on large-sized substrates disposed in a processing chamber. In one embodiment, a method includes processing a batch of substrates within a processing chamber to deposit a nitrogen-containing material on a substrate from the batch of substrates, and performing a seasoning process at predetermined intervals during processing the batch of substrates to deposit a conductive seasoning layer over a surface of a chamber component disposed in the processing chamber. The chamber component may include a gas distribution plate fabricated from a bare aluminum without anodizing. In one example, the conductive seasoning layer may include amorphous silicon, doped amorphous silicon, doped silicon, doped polysilicon, doped silicon carbide, or the like. | 02-16-2012 |
20130140009 | ROBUST OUTLET PLUMBING FOR HIGH POWER FLOW REMOTE PLASMA SOURCE - The present invention generally includes a coupling between components. When igniting a plasma remote from a processing chamber, the reactive gas ions may travel to the processing chamber through numerous components. The reactive gas ions may be quite hot and cause the various components to become very hot and thus, the seals between apparatus components may fail. Therefore, it may be beneficial to cool any metallic components through which the reactive gas ions may travel. However, at the interface between the cooled metallic component and a ceramic component, the ceramic component may experience a temperature gradient sufficient to crack the ceramic material due to the heat of the reactive gas ions and the coolness of the metallic component. Therefore, extending a flange of the metallic component into the ceramic component may lessen the temperature gradient at the interface and reduce cracking of the ceramic component. | 06-06-2013 |
20130228124 | SUBSTRATE SUPPORT WITH CERAMIC INSULATION - 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. | 09-05-2013 |
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 |