FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2904115341> ?p ?o ?g. }

• W2904115341 abstract "The standard architecture for vacuum-based processing equipment in the commercial semiconductor and advanced packaging industries is the cluster tool architecture, or some variant of it. For fan-out packaging barrier/seed layer sputter deposition, reconstituted mold compound wafers or panels see a degas chamber, a pre-clean chamber, a Ti PVD chamber, and a Cu PVD chamber, along with the loading/unloading stations themselves. Our industry has worked on optimizing cluster tool wafer transport and process flow scheduling in order to optimize throughput in central wafer handling systems. However, we are still resigned to cluster tools forever operating in two regimes: at best, in the robot–limited region but, more commonly, in the process–limited region, with its lower associated throughput. There is also a second detail to consider in cluster tool processing: wafer delays. Wafer delays, either in the PVD tool process chambers, or in the tool transport, take away from system throughput, and potentially introduce subtle process variations as well. We report here on the design and operation of a continuous transport degas module, part of the set of continuous transport process modules that contrast with the standard process module configurations of robot pick-and-place vacuum cluster tools. As the lead process module in a carrier-based linear transport PVD system configured for fan-out packaging barrier/seed layer deposition, the continuous transport degas effectively sets up all subsequent process modules in the linear transport PVD tool to perform robust, regulated, and highly repeatable process sequences in which neither fan-out wafers nor fan-out panels experience transport-related wafer delays, variable or not. This continuous process architecture should aid PVD process consistency, as it eliminates one potential source of subtle process variations, that of wafer transport variability." @default.
• W2904115341 created "2018-12-22" @default.
• W2904115341 creator A5030230916 @default.
• W2904115341 creator A5031979661 @default.
• W2904115341 creator A5035954763 @default.
• W2904115341 creator A5036550375 @default.
• W2904115341 creator A5037276890 @default.
• W2904115341 creator A5048890442 @default.
• W2904115341 creator A5063565621 @default.
• W2904115341 creator A5066369240 @default.
• W2904115341 date "2018-10-01" @default.
• W2904115341 modified "2023-09-26" @default.
• W2904115341 title "Degas Module Thermal Architecture, Variable Wafer Delays, and Throughput, Productivity, and Consistency in Fan-Out Packaging Barrier/Seed Layer PVD" @default.
• W2904115341 cites W140725881 @default.
• W2904115341 cites W2012448698 @default.
• W2904115341 cites W2082518281 @default.
• W2904115341 cites W2305877539 @default.
• W2904115341 cites W2331742122 @default.
• W2904115341 cites W2383006324 @default.
• W2904115341 cites W2744963145 @default.
• W2904115341 cites W2785328675 @default.
• W2904115341 doi "https://doi.org/10.23919/iwlpc.2018.8573295" @default.
• W2904115341 hasPublicationYear "2018" @default.
• W2904115341 type Work @default.
• W2904115341 sameAs 2904115341 @default.
• W2904115341 citedByCount "0" @default.
• W2904115341 crossrefType "proceedings-article" @default.
• W2904115341 hasAuthorship W2904115341A5030230916 @default.
• W2904115341 hasAuthorship W2904115341A5031979661 @default.
• W2904115341 hasAuthorship W2904115341A5035954763 @default.
• W2904115341 hasAuthorship W2904115341A5036550375 @default.
• W2904115341 hasAuthorship W2904115341A5037276890 @default.
• W2904115341 hasAuthorship W2904115341A5048890442 @default.
• W2904115341 hasAuthorship W2904115341A5063565621 @default.
• W2904115341 hasAuthorship W2904115341A5066369240 @default.
• W2904115341 hasConcept C111919701 @default.
• W2904115341 hasConcept C127413603 @default.
• W2904115341 hasConcept C149635348 @default.
• W2904115341 hasConcept C157764524 @default.
• W2904115341 hasConcept C160671074 @default.
• W2904115341 hasConcept C171250308 @default.
• W2904115341 hasConcept C192562407 @default.
• W2904115341 hasConcept C2779227376 @default.
• W2904115341 hasConcept C2780288131 @default.
• W2904115341 hasConcept C41008148 @default.
• W2904115341 hasConcept C49040817 @default.
• W2904115341 hasConcept C555944384 @default.
• W2904115341 hasConcept C78519656 @default.
• W2904115341 hasConceptScore W2904115341C111919701 @default.
• W2904115341 hasConceptScore W2904115341C127413603 @default.
• W2904115341 hasConceptScore W2904115341C149635348 @default.
• W2904115341 hasConceptScore W2904115341C157764524 @default.
• W2904115341 hasConceptScore W2904115341C160671074 @default.
• W2904115341 hasConceptScore W2904115341C171250308 @default.
• W2904115341 hasConceptScore W2904115341C192562407 @default.
• W2904115341 hasConceptScore W2904115341C2779227376 @default.
• W2904115341 hasConceptScore W2904115341C2780288131 @default.
• W2904115341 hasConceptScore W2904115341C41008148 @default.
• W2904115341 hasConceptScore W2904115341C49040817 @default.
• W2904115341 hasConceptScore W2904115341C555944384 @default.
• W2904115341 hasConceptScore W2904115341C78519656 @default.
• W2904115341 hasLocation W29041153411 @default.
• W2904115341 hasOpenAccess W2904115341 @default.
• W2904115341 hasPrimaryLocation W29041153411 @default.
• W2904115341 hasRelatedWork W2035374608 @default.
• W2904115341 hasRelatedWork W2090969245 @default.
• W2904115341 hasRelatedWork W2094552407 @default.
• W2904115341 hasRelatedWork W2129577364 @default.
• W2904115341 hasRelatedWork W2170004553 @default.
• W2904115341 hasRelatedWork W2248916911 @default.
• W2904115341 hasRelatedWork W2355054376 @default.
• W2904115341 hasRelatedWork W2613255096 @default.
• W2904115341 hasRelatedWork W2744963145 @default.
• W2904115341 hasRelatedWork W2904499466 @default.
• W2904115341 isParatext "false" @default.
• W2904115341 isRetracted "false" @default.
• W2904115341 magId "2904115341" @default.
• W2904115341 workType "article" @default.