Abstract: A fab can be constructed as a round or rectangular annular tube with a primary cleanspace located in-between its inner and outer tubes. The fab can be encircled with levels upon which tools can be densely packed while preserving unidirectional air flow. If only tool ports are inside, and robotics are used, primary cleanspace size can be minimized. Highly simplified robotics can be used. Tools can be removed and repaired centrally. A secondary cleanspace can be added for tool bodies. Multilevel construction enhances use of prefabricated units for fab build or maintenance. Curves or folds, applied to a conventional planar cleanroom, can construct a wide range of fab geometries, including a tubular non-annular fab. A fab can also be constructed according to a curved or non-curved sectional cut of an annular tube. A novel fab, of a non-curved section, can include a non-segmented cleanspace or have its tools vertically stacked.
Abstract: The present invention provides various aspects of support for a processing tool in a fabrication facility capable of routine placement and replacement of processing tools and component assemblies of the tools. Support aspects include a support structure for component assemblies and a quick disconnect flange which facilitates connecting and disconnect of electrical, liquid and gas utilities to a tool component placed in the processing tool.
Abstract: The present invention provides various aspects of support for a fabrication facility capable of routine placement and replacement of processing tools. Support aspects include support structure for processing tools, a clean environment carrier for a single substrate, and a quick disconnect flange which facilitates connecting and disconnect of electrical, liquid and gas utilities to a processing tool placed in the fabricator.
Abstract: The present invention provides methods and apparatus capable of routine placement and replacement of fabricator tools in a designated tool location. The tool location can be selected from multiple tool locations arranged in a matrix with horizontal and vertical designations. The operation may be fully automated. In another aspect, the invention describes Cleanspace fabricators which use devices to routinely remove and place tooling.
Abstract: The present invention provides apparatus for an imaging system comprising a multitude of imaging elements upon a substrate. In some embodiments the substrate may be approximately round with a radius of approximately one inch. Various methods relating to using and producing an imaging system are discussed.
Abstract: The present invention provides methods and apparatus capable of routine placement and replacement of fabricator tools in a designated tool location. The tool location can be selected from multiple tool locations arranged in a matrix with horizontal and vertical designations. The operation may be fully automated. In another aspect, the invention describes Cleanspace fabricators which use devices to routinely remove and place tooling.
Abstract: The present invention provides various aspects of support for a fabrication facility capable of routine placement and replacement of processing tools in at least a vertical dimension relative to each other.
Abstract: The present invention provides various aspects of support for a fabrication facility capable of routine placement and replacement of processing tools. Support aspects include support structure for processing tools, a clean environment carrier for a single substrate and a quick disconnect flange which facilities connecting and disconnect of electrical, liquid and gas utilities to a processing tool placed in the fabricator. Methods of installing processing tools and for producing substrates in this environment are provided.