Patent application number | Description | Published |
20080286076 | METHODS AND APPARATUS FOR REPOSITIONING SUPPORT FOR A SUBSTRATE CARRIER - In a first aspect, a first method is provided repositioning support provided by an end effector. The first method includes the steps of (1) employing the end effector to support a substrate carrier by a bottom of the substrate carrier; (2) transferring the substrate carrier from the end effector to an intermediate support location, wherein the intermediate support location supports the substrate carrier by a bottom of the substrate carrier; (3) repositioning the end effector proximate an overhead transfer flange of the substrate carrier; (4) employing the end effector to support the substrate carrier by the overhead transfer flange of the substrate carrier; and (5) transferring the substrate carrier from the intermediate support location. Numerous other aspects are provided. | 11-20-2008 |
20080289932 | SYSTEM FOR TRANSPORTING SUBSTRATE CARRIERS - In a semiconductor fabrication facility, a conveyor transports substrate carriers. The substrate carriers are unloaded from the conveyor and loaded onto the conveyor without stopping the conveyor. A load and/or unload mechanism lifts the substrate carriers from the conveyor during unloading operations, while matching the horizontal speed of the conveyor. Similarly, during loading operations, the load/unload mechanism lowers a substrate carrier into engagement with the conveyor while matching the horizontal speed of the conveyor. Individual substrates, without carriers, may be similarly loaded and/or unloaded from a conveyor. | 11-27-2008 |
20090110518 | SEALED SUBSTRATE CARRIERS AND SYSTEMS AND METHODS FOR TRANSPORTING - An electronic device manufacturing system is disclosed. The system includes a processing tool having one or more processing chambers each adapted to perform an electronic device manufacturing process on one or more substrates; a substrate carrier adapted to couple to the system and carry one or more substrates; and a component adapted to create a sealed environment relative to at least a portion of the substrate carrier and to substantially equalize the sealed environment with an environment within the substrate carrier. Methods of the invention are described as are numerous other aspects. | 04-30-2009 |
20130039734 | ROBOT SYSTEMS, APPARATUS, AND METHODS ADAPTED TO PROCESS SUBSTRATES IN MULTIPLE TIERS - Substrate transport systems, apparatus, and methods are described. In one aspect, the systems are disclosed having vertically stacked transfer chamber bodies. In one embodiment, a common robot apparatus services process chambers or load lock chambers coupled to upper and lower transfer chamber bodies. In another embodiment, separate robot apparatus service the process chambers and/or load lock chambers coupled to upper and lower transfer chamber bodies, and an elevator apparatus transfers the substrates between the various elevations. Degassing apparatus are described, as are numerous other aspects. | 02-14-2013 |
20140044503 | LINKED VACUUM PROCESSING TOOLS AND METHODS OF USING THE SAME - In some embodiments, a linked processing tool system is provided that includes (1) a first processing tool having at least a first transfer chamber configured to couple to a plurality of processing chambers; (2) a second processing tool having at least a second transfer chamber configured to couple to a plurality of processing chambers; (3) a third transfer chamber coupled between the first and second processing tools and configured to transfer substrates between the first and second processing tools; and (4) a single sequencer that controls substrate transfer operations between the first processing tool, the second processing tool and the third transfer chamber of the linked processing tool system. Numerous other aspects are provided. | 02-13-2014 |
20140053912 | Methods and Apparatus for Enhanced Gas Flow Rate Control - The present invention provides methods and apparatus for controlling gas flow to a semiconductor-processing chamber. The invention includes deactivating ratio setpoint feedback control in a flow ratio controller; initiating gas flow through the flow ratio controller; moving valves of the flow ratio controller to a preset position based on a stored position when an upstream pressure reaches a stored upstream pressure value, wherein the stored position and the stored upstream pressure value were stored during a prior process run; determining that steady state flow ratio controller output flows have been reached; and activating ratio setpoint feedback control in the flow ratio controller. Numerous additional features are disclosed. | 02-27-2014 |
20140262035 | SEMICONDUCTOR DEVICE MANUFACTURING PLATFORM WITH SINGLE AND TWINNED PROCESSING CHAMBERS - A transfer chamber for semiconductor device manufacturing includes (1) a plurality of sides that define a region configured to maintain a vacuum level and allow transport of substrates between processing chambers, the plurality of sides defining a first portion and a second portion of the transfer chamber and including (a) a first side that couples to two twinned processing chambers; and (b) a second side that couples to a single processing chamber; (2) a first substrate handler located in the first portion of the transfer chamber; (3) a second substrate handler located in the second portion of the transfer chamber; and (4) a hand-off location configured to allow substrates to be passed between the first portion and the second portion of the transfer chamber using the first and second substrate handlers. Method aspects are also provided. | 09-18-2014 |
20150016941 | SEALED SUBSTRATE CARRIERS AND SYSTEMS AND METHODS FOR TRANSPORTING SUBSTRATES - An electronic device manufacturing system is disclosed. The system includes a processing tool having one or more processing chambers each adapted to perform an electronic device manufacturing process on one or more substrates; a substrate carrier adapted to couple to the system and carry one or more substrates; and a component adapted to create a sealed environment relative to at least a portion of the substrate carrier and to substantially equalize the sealed environment with an environment within the substrate carrier. Methods of the invention are described as are numerous other aspects. | 01-15-2015 |
20150082625 | MIXED-PLATFORM APPARATUS, SYSTEMS, AND METHODS FOR SUBSTRATE PROCESSING - An electronic device manufacturing system may include a mainframe to which one or more process chambers of different size may be coupled. A different number of process chambers may be coupled to each facet (i.e., side wall) of the mainframe. The process chambers coupled to one facet may be of a different size than process chambers coupled to other facets. For example, one process chamber of a first size may be coupled to a first facet, two process chambers each of a second size different than the first size may be coupled to a second facet, and three process chambers each of a third size different than the first and second sizes may be coupled to a third facet. Other configurations are possible. The mainframe may have a square or rectangular shape. Methods of assembling an electronic device manufacturing system are also provided, as are other aspects. | 03-26-2015 |