Patent application number | Description | Published |
20110132874 | SMALL PLASMA CHAMBER SYSTEMS AND METHODS - A plasma etch processing tool is disclosed. The plasma etch processing tool, comprising a substrate support for supporting a substrate having a substrate surface area, a processing head including a plasma microchamber having an open side that is oriented over the substrate support, the open side of the plasma microchamber having a process area that is less than the substrate surface area, a sealing structure defined between the substrate support and the processing head and a power supply connected to the plasma microchamber and the substrate support. A method for performing a plasma etch is also disclosed. | 06-09-2011 |
20130025788 | Distributed, Non-Concentric Multi-Zone Plasma Source Systems, Methods and Apparatus - A processing chamber including multiple plasma sources in a process chamber top. Each one of the plasma sources is a ring plasma source including a primary winding and multiple ferrites. A plasma processing system is also described. A method of plasma processing is also described. | 01-31-2013 |
20140096908 | DISTRIBUTED MULTI-ZONE PLASMA SOURCE SYSTEMS, METHODS AND APPARATUS - A processing chamber including multiple plasma sources in a process chamber top. Each one of the plasma sources is a ring plasma source including a primary winding and multiple ferrites. A plasma processing system is also described. A method of plasma processing is also described. | 04-10-2014 |
20140151333 | Small Plasma Chamber Systems and Methods - A plasma deposition chamber is disclosed. A substrate support for supporting a surface to be processed is in the chamber. A processing head including an array of plasma microchambers is also in the chamber. Each of the plasma microchambers includes an open side disposed over at least a first portion of the surface to be processed. The open side has an area less than an entire area of the surface to be processed. A process gas source is coupled to the chamber to provide a process gas the array of plasma microchambers. A radio frequency power supply is connected to at least one electrode of the processing head. The array of plasma microchambers is configured to generate a plasma using the process gas to deposit a layer over the at least first portion of the surface to be processed. A method for performing a plasma deposition is also disclosed. | 06-05-2014 |
Patent application number | Description | Published |
20120031876 | SYSTEMS, METHODS AND APPARATUS FOR SEPARATE PLASMA SOURCE CONTROL - A plasma source includes multiple ring plasma chambers, multiple primary windings, multiple ferrites and a control system. Each one of the primary windings is wrapped around an exterior one of the ring plasma chambers. Each one of the plurality of the ring plasma chamber passes through a respective portion of the plurality of ferrites. The control system is coupled to each of the ring plasma chambers. A system and method for generating and using a plasma are also described. | 02-09-2012 |
20120034394 | DISTRIBUTED MULTI-ZONE PLASMA SOURCE SYSTEMS, METHODS AND APPARATUS - A plasma source includes a ring plasma chamber, a primary winding around an exterior of the ring plasma chamber and multiple ferrites, wherein the ring plasma chamber passes through each of the ferrites. A system and method for generating a plasma are also described. | 02-09-2012 |
20120035766 | SYSTEMS, METHODS AND APPARATUS FOR CHOKED FLOW ELEMENT EXTRACTION - A plasma source includes a ring plasma chamber, a primary winding around an exterior of the ring plasma chamber, multiple ferrites, wherein the ring plasma chamber passes through each of the ferrites and multiple plasma chamber outlets coupling the plasma chamber to a process chamber. Each one of the plasma chamber outlets having a respective plasma restriction. A system and method for generating a plasma are also described. | 02-09-2012 |
20120289053 | Semiconductor Processing System Having Multiple Decoupled Plasma Sources - A semiconductor substrate processing system includes a substrate support defined to support a substrate in exposure to a processing region. The system also includes a first plasma chamber defined to generate a first plasma and supply reactive constituents of the first plasma to the processing region. The system also includes a second plasma chamber defined to generate a second plasma and supply reactive constituents of the second plasma to the processing region. The first and second plasma chambers are defined to be independently controlled. | 11-15-2012 |
20120289054 | Semiconductor Processing System Having Multiple Decoupled Plasma Sources - A semiconductor substrate processing system includes a chamber that includes a processing region and a substrate support. The system includes a top plate assembly disposed within the chamber above the substrate support. The top plate assembly includes first and second sets of plasma microchambers each formed into the lower surface of the top plate assembly. A first network of gas supply channels are formed through the top plate assembly to flow a first process gas to the first set of plasma microchambers to be transformed into a first plasma. A set of exhaust channels are formed through the top plate assembly. The second set of plasma microchambers are formed inside the set of exhaust channels. A second network of gas supply channels are formed through the top plate assembly to flow a second process gas to the second set of plasma microchambers to be transformed into a second plasma. | 11-15-2012 |
20150044878 | Semiconductor Processing System Having Multiple Decoupled Plasma Sources - A semiconductor substrate processing system includes a chamber that includes a processing region and a substrate support. The system includes a top plate assembly disposed within the chamber above the substrate support. The top plate assembly includes first and second sets of plasma microchambers each formed into the lower surface of the top plate assembly. A first network of gas supply channels are formed through the top plate assembly to flow a first process gas to the first set of plasma microchambers to be transformed into a first plasma. A set of exhaust channels are formed through the top plate assembly. The second set of plasma microchambers are formed inside the set of exhaust channels. A second network of gas supply channels are formed through the top plate assembly to flow a second process gas to the second set of plasma microchambers to be transformed into a second plasma. | 02-12-2015 |