AVENTA TECHNOLOGIES LLC Patent applications |
Patent application number | Title | Published |
20130255922 | WEB COOLING DEVICE FOR A VACUUM PROCESSING SYSTEM - Described are a device and a method for cooling a web in a vacuum processing system. The device includes a heat transfer module, a coolant path and a gas injector. The heat transfer module has a first end, a second end opposite the first end, and a pair of cooling surfaces extending between the first and second ends. The first end receives a transported web in a vacuum environment and the second provides the transported web after passage through a web transport path between the cooling surfaces. The coolant path is in thermal communication with the heat transfer module to maintain the cooling surfaces at a temperature less than the temperature of the transported web. The gas injector supplies gas to the web transport path between the cooling surfaces so that heat is efficiently conducted from the transported web to the cooling surfaces. | 10-03-2013 |
20120219713 | PARALLEL BATCH CHEMICAL VAPOR DEPOSITION SYSTEM - Described is a parallel batch CVD system that includes a pair of linear deposition chambers in a parallel arrangement and a robotic loading module disposed between the chambers. Each chamber includes a linear arrangement of substrate receptacles, gas injectors to supply at least one gas in a uniform distribution across the substrates, and a heating module for uniformly controlling a temperature of the substrates. The robotic loading module is configured for movement in a direction parallel to a length of each of the chambers and includes at least one cassette for carrying substrates to be loaded into the substrate receptacles of the chambers. The parallel batch CVD system is suitable for high volume processing of substrates. The CVD processes performed in the chambers can be the same process. Alternatively, the CVD processes may be different and substrates processed in one chamber may be subsequently processed in the other chamber. | 08-30-2012 |
20120034764 | SYSTEM AND METHOD FOR FABRICATING THIN-FILM PHOTOVOLTAIC DEVICES - Described are an apparatus and a method for depositing a thin film on a web. The method includes depositing a first layer of a composite metal onto a web. A first selenium layer is deposited onto the first layer and the web is heated to selenize the first layer. Subsequently, a second layer of the composite metal is deposited onto the selenized first layer and a second selenium layer is deposited onto the second layer. The web is then heated to selenize the second layer. The composition of each composite metal layer can be varied to achieve desired bandgap gradients and other film properties. Segregation of gallium and indium is substantially reduced or eliminated because each incremental layer is selenized before the next incremental layer is deposited. The method can be implemented in production systems to deposit CIGS films on metal and plastic foils. | 02-09-2012 |
20120034734 | SYSTEM AND METHOD FOR FABRICATING THIN-FILM PHOTOVOLTAIC DEVICES - Described are embodiments of methods for depositing a copper indium gallium diselenide (CIGS) film on a substrate, such as a web substrate or a discrete substrate. In various embodiments, an incremental layer of indium is deposited followed by deposition of a top incremental layer of copper gallium to create a multi-layer structure that is subsequently selenized. By capping the multi-layer structure with the copper gallium layer, the depletion of indium during the selenization of the multi-layer is reduced or eliminated. Additional multi-layers, each having a copper gallium cap layer, are formed and selenized to create the CIGS film. Optionally, the indium content and gallium content in each multi-layer are varied from the indium content and gallium content of one or more of the other multi-layers to achieve desired content gradients in the CIGS film. | 02-09-2012 |
20120034733 | SYSTEM AND METHOD FOR FABRICATING THIN-FILM PHOTOVOLTAIC DEVICES - Described are a system and a method for depositing a thin film on a substrate. In some embodiments, the system includes a substrate transport system to transport a plurality of discrete substrates, such as glass substrates or wafers, along a closed path. The system also includes a metal deposition zone, a selenization zone and a cooling chamber each disposed on the closed path. During transport along the closed path, the metal deposition zone deposits a layer of a composite metal onto the discrete substrates and the selenization zone selenizes the layer of the composite metal. The cooling zone cools the discrete substrates prior to a subsequent pass through the metal deposition zone and the selenization zone. | 02-09-2012 |
20120031604 | SYSTEM AND METHOD FOR FABRICATING THIN-FILM PHOTOVOLTAIC DEVICES - Described is a vapor trap that enables the capture of material from the condensate of a vapor. The vapor trap includes an inner module, outer module and cooling system. The inner module has a transport channel to pass a web substrate or discrete substrate, and to limit conductance of the vapor. Plenums extend from the transport channel to an outer surface of the inner module. The inner module is configured to be at a temperature that is greater than a condensation temperature of the vapor. The outer module includes collection surfaces disposed across from the outer ends of the plenums. The temperature of the collection surfaces is less that a condensation temperature of the vapor. In various embodiments, the vapor trap is a selenium trap that can be used, for example, in a copper indium gallium diselenide (CIGS) deposition system for fabrication of thin film solar cells and modules. | 02-09-2012 |
20120006520 | COOLING APPARATUS FOR A WEB DEPOSITION SYSTEM - Described are an apparatus and a method for cooling a web. The apparatus includes an inner cylinder having a void therein and configured for coupling to a gas source. The apparatus also includes an outer cylinder having an inner surface, an outer surface to support a web and apertures between the inner and outer surfaces. The outer cylinder rotates about the inner cylinder so that gas provided to the void of the inner cylinder flows through the apertures that are adjacent to the void and passes to the outer surface of the outer cylinder to increase the heat transfer between the web and the outer cylinder. The volume of gas introduced into the vacuum deposition chamber during a process run is thereby limited. Advantageously, the apparatus enables higher deposition rates and increased productivity. | 01-12-2012 |
20110262628 | METHOD AND SYSTEM FOR INLINE CHEMICAL VAPOR DEPOSITION - Disclosed are an inline chemical vapor deposition method and system for fabricating a device. The method includes transporting a web or discrete substrate through a deposition chamber having a plurality of deposition modules. A buffer layer, a window layer and a transparent conductive layer are deposited onto the substrate during passage through a first deposition module, a second deposition module and a third deposition module, respectively. Advantageously, the steps for generating the buffer layer, window layer and transparent conductive layer are performed sequentially in a common vacuum environment of a single deposition chamber and the use of a conventional chemical bath deposition process to deposit the buffer layer is eliminated. The method is suitable for the manufacture of different types of devices including various types of solar cells such as copper indium gallium diselenide solar cells. | 10-27-2011 |