Source: http://www.google.es/patents/US6890801?dq=flatulence
Timestamp: 2013-05-23 06:38:27
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Matched Legal Cases: ['application No. 09', 'application No. 09', 'application No. 10', 'application No. 10', 'application No. 10', 'application No. 10']

Patente US6890801 - Stereolithographic methods for fabricating hermetic semiconductor device ... - Google PatentesB�squeda Im�genes Maps Play YouTube Noticias Gmail Drive M�s » B�squeda avanzada de patentes | Historial web | Iniciar sesi�n B�squeda avanzada de patentesPatentesA stereolithographically fabricated, substantially hermetic package surrounds at least a portion of a semiconductor die so as to substantially hermetically seal the same. Stereolithographic processes may be used to fabricate at least a portion of the substantially hermetic package from thermoplastic...http://www.google.es/patents/US6890801?utm_source=gb-gplus-sharePatente US6890801 - Stereolithographic methods for fabricating hermetic semiconductor device packages and semiconductor devices including stereolithographically fabricated hermetic packages N�mero de publicaci�nUS6890801 B2Tipo de publicaci�nConcesi�n N�mero de solicitud10/619,918 Fecha de publicaci�n10 May 2005 Fecha de presentaci�n15 Jul 2003 Fecha de prioridad17 Ago 2000Tambi�n publicado comoUS6432752US6514798US6593171US6770514US6791164US6951779US20020066966US20020096805US20020096806US20020182782US20030129787US20040014259US20050009245US20050040505US20060003497 InventoresWarren M. Farnworth Cesionario originalMicron Technology, Inc. Clasificaci�n de EE.UU.438/127257/E21.502257/E23.124 Clasificaci�n internacionalH01L23/31H01L21/56 Clasificaci�n cooperativaH01L2224/16225H01L2924/01032H01L2224/48227H01L21/56H01L23/291H01L2224/274H01L23/3121H01L2224/16H01L2924/01049H01L21/67126H01L23/3107H01L2924/09701H01L2924/01082H01L23/29H01L2224/48091H01L23/4951B29C70/72H01L2924/01013H01L2924/01039H01L2924/0103H01L2924/01074H01L24/97G03F7/70416H01L2924/01015H01L2924/01029H01L21/561H01L2924/01033H01L2924/01006H01L2924/01005H01L2924/01019H01L24/48 Clasificaci�n europeaH01L21/56BG03F7/70H6H01L24/97H01L23/31H2B29C70/72H01L21/67S2MH01L23/29H01L21/56H01L23/31HReferenciasCitas de patentes (82)Otras citas (27) Citada por (1)Enlaces externosUSPTO Cesi�n de USPTO EspacenetStereolithographic methods for fabricating hermetic semiconductor device packages and semiconductor devices including stereolithographically fabricated hermetic packagesUS 6890801 B2 Resumen A stereolithographically fabricated, substantially hermetic package surrounds at least a portion of a semiconductor die so as to substantially hermetically seal the same. Stereolithographic processes may be used to fabricate at least a portion of the substantially hermetic package from thermoplastic glass, other types of glass, ceramics, or metals. The substantially hermetic package may be used with semiconductor device assemblies or with bare or minimally packaged semiconductor dice, including dice that have yet to be singulated from a wafer. The stereolithographic method may include use of a machine vision system including at least one camera operably associated with a computer controlling a stereolithographic application of material so that the system may recognize the position, orientation, and features of a semiconductor device assembly, semiconductor die, or other substrate on which the substantially hermetic package is to be fabricated.
Citas de patentes Patente citada Fecha de presentaci�n Fecha de publicaci�n Solicitante T�tuloUS33255865 Mar 196313 Jun 1967Fairchild Camera And Instrument CorporationCircuit element totally encapsulated in glassUS413369019 Abr 19769 Ene 1979Jenaer Glaswerk Schott & Gen.Glass composition for passivating semiconductor surfacesUS431403117 Jun 19802 Feb 1982Corning Glass WorksTin-phosphorus oxyfluoride glassesUS44008706 Oct 198030 Ago 1983Texas Instruments IncorporatedMethod of hermetically encapsulating a semiconductor device by laser irradiationUS44684115 Abr 198228 Ago 1984Motorola, Inc.Method for providing alpha particle protection for an integrated circuit dieUS476934512 Mar 19876 Sep 1988Olin CorporationProcess for producing a hermetically sealed package for an electrical component containing a low amount of oxygen and water vaporUS482115120 Dic 198511 Abr 1989Olin CorporationHermetically sealed packageUS486353817 Oct 19865 Sep 1989Board Of Regents, The University Of Texas SystemMethod and apparatus for producing parts by selective sinteringUS486657123 Ago 198412 Sep 1989Olin CorporationSemiconductor packageUS49448175 Sep 198931 Jul 1990Board Of Regents, The University Of Texas SystemMultiple material systems for selective beam sinteringUS498726013 Dic 198822 Ene 1991Mitsui Petrochemical Industries, Ltd.Preparation of anilinesUS501336015 Sep 19897 May 1991Vlsi Packaging Materials, Inc.Sealing glass compositionsUS50141594 Abr 19897 May 1991Olin CorporationSemiconductor packageUS501775322 Jun 199021 May 1991Board Of Regents, The University Of Texas SystemMethod and apparatus for producing parts by selective sinteringUS508633425 Abr 19914 Feb 1992Cray Research Inc.Chip carrierUS50894459 Oct 199018 Feb 1992Corning IncorporatedFusion sealing materialsUS50894469 Oct 199018 Feb 1992Corning IncorporatedSealing materials and glassesUS511727923 Mar 199026 May 1992Motorola, Inc.Semiconductor device having a low temperature uv-cured epoxy sealUS513214321 Jun 199021 Jul 1992Board Of Regents, The University Of Texas SystemMethod for producing partsUS51553219 Nov 199013 Oct 1992Dtm CorporationRadiant heating apparatus for providing uniform surface temperature useful in selective laser sinteringUS51553249 Nov 199013 Oct 1992Dtm CorporationMethod for selective laser sintering with layerwise cross-scanningUS51566977 Dic 199020 Oct 1992Board Of Regents, The University Of Texas SystemSelective laser sintering of parts by compound formation of precursor powdersUS517322026 Abr 199122 Dic 1992Motorola, Inc.Method of manufacturing a three-dimensional plastic articleUS518217026 Abr 199126 Ene 1993Board Of Regents, The University Of Texas SystemMethod of producing parts by selective beam interaction of powder with gas phase reactantUS52522648 Nov 199112 Oct 1993Dtm CorporationApparatus and method for producing parts with multi-directional powder deliveryUS526406122 Oct 199223 Nov 1993Motorola, Inc.Method of forming a three-dimensional printed circuit assemblyUS527844215 Jul 199111 Ene 1994Prinz; Fritz B.Electronic packages and smart structures formed by thermal spray depositionUS528469520 Mar 19928 Feb 1994Board Of Regents, The University Of Texas SystemMethod of producing high-temperature parts by way of low-temperature sinteringUS530432923 Nov 199219 Abr 1994The B. F. Goodrich CompanyMethod of recovering recyclable unsintered powder from the part bed of a selective laser-sintering machineUS531658010 Jul 199231 May 1994Board Of Regents, The University Of Texas SystemMethod and apparatus for producing parts by selective sinteringUS532305116 Dic 199121 Jun 1994Motorola, Inc.Semiconductor wafer level packageUS533205131 Mar 199326 Jul 1994Smith International, Inc.Optimized PDC cutting shapeUS53406569 Abr 199323 Ago 1994Massachusetts Institute Of TechnologyThree-dimensional printing techniquesUS534291923 Nov 199230 Ago 1994Dtm CorporationSinterable semi-crystalline powder and near-fully dense article formed therewithUS535240518 Dic 19924 Oct 1994Dtm CorporationThermal control of selective laser sintering via control of the laser scanUS538578014 Jul 199331 Ene 1995The B. F. Goodrich CompanySinterable mass of polymer powder having resistance to caking and method of preparing the massUS53873805 Jun 19927 Feb 1995Massachusetts Institute Of TechnologyThree-dimensional printing techniquesUS54306687 Mar 19944 Jul 1995Nec CorporationFloating point multiplier capable of easily performing a failure detection testUS548431413 Oct 199416 Ene 1996Micron Semiconductor, Inc.Micro-pillar fabrication utilizing a stereolithographic printing processUS549088230 Nov 199213 Feb 1996Massachusetts Institute Of TechnologyProcess for removing loose powder particles from interior passages of a bodyUS549096218 Oct 199313 Feb 1996Massachusetts Institute Of TechnologyPreparation of medical devices by solid free-form fabrication methodsUS551868023 Feb 199421 May 1996Massachusetts Institute Of TechnologyTissue regeneration matrices by solid free form fabrication techniquesUS552787730 Ago 199418 Jun 1996Dtm CorporationSinterable semi-crystalline powder and near-fully dense article formed therewithUS564845017 Jun 199615 Jul 1997Dtm CorporationSinterable semi-crystalline powder and near-fully dense article formed thereinUS566062129 Dic 199526 Ago 1997Massachusetts Institute Of TechnologyBinder composition for use in three dimensional printingUS56732583 Mar 199530 Sep 1997Dtm Data Telemark GmbhMethod and apparatus for the enlargement of the reach of the transmission channel between functional groups of an ISDN-user interfaceUS568206512 Mar 199628 Oct 1997Micron Technology, Inc.Hermetic chip and method of manufactureUS568471330 Jun 19934 Nov 1997Massachusetts Institute Of TechnologyMethod and apparatus for the recursive design of physical structuresUS57051171 Mar 19966 Ene 1998Delco Electronics CorporaitonMethod of combining metal and ceramic inserts into stereolithography componentsUS573349713 Sep 199531 Mar 1998Dtm CorporationSelective laser sintering with composite plastic materialUS574904113 Oct 19955 May 1998Dtm CorporationMethod of forming three-dimensional articles using thermosetting materialsUS577540231 Oct 19957 Jul 1998Massachusetts Institute Of TechnologyEnhancement of thermal properties of tooling made by solid free form fabrication techniquesUS58074375 Feb 199615 Sep 1998Massachusetts Institute Of TechnologyThree dimensional printing systemUS581416112 Feb 199629 Sep 1998Massachusetts Institute Of TechnologyCeramic mold finishing techniques for removing powderUS58172067 Feb 19966 Oct 1998Dtm CorporationSelective laser sintering of polymer powder of controlled particle size distributionUS585146521 Ago 199722 Dic 1998Massachusetts Institute Of TechnologyBinder composition for use in three dimensional printingUS585583612 Jun 19975 Ene 19993D Systems, Inc.Method for selective deposition modelingUS58691705 Jun 19959 Feb 1999Massachusetts Institute Of TechnologyPreparation of medical devices by solid free-form fabrication methodsUS587709327 Oct 19952 Mar 1999Honeywell Inc.Process for coating an integrated circuit device with a molten sprayUS590304413 Ago 199711 May 1999Micron Technology, Inc.Hermetic chip and method of manufactureUS595810031 Jul 199628 Sep 1999Micron Technology, Inc.Process of making a glass semiconductor packageUS60465078 Dic 19974 Abr 2000Advanced Micro DevicesElectrophoretic coating methodology to improve internal package delamination and wire bond reliabilityUS62514885 May 199926 Jun 2001Optomec Design CompanyPrecision spray processes for direct write electronic componentsUS62599621 Mar 199910 Jul 2001Objet Geometries Ltd.Apparatus and method for three dimensional model printingUS626858420 Jul 199831 Jul 2001Optomec Design CompanyMultiple beams and nozzles to increase deposition rateUS63197576 Jul 199920 Nov 2001Caldus Semiconductor, Inc.Adhesion and/or encapsulation of silicon carbide-based semiconductor devices on ceramic substratesUS63266988 Jun 20004 Dic 2001Micron Technology, Inc.Semiconductor devices having protective layers thereon through which contact pads are exposed and stereolithographic methods of fabricating such semiconductor devicesUS633712211 Ene 20008 Ene 2002Micron Technology, Inc.Stereolithographically marked semiconductors devices and methodsUS634899218 Abr 200019 Feb 2002Pacific Wave Industries, Inc.Sterically stabilized polyene-bridged second-order nonlinear optical chromophores and devices incorporating the sameUS63912519 May 200021 May 2002Optomec Design CompanyForming structures from CAD solid modelsUS643275217 Ago 200013 Ago 2002Micron Technology, Inc.Stereolithographic methods for fabricating hermetic semiconductor device packages and semiconductor devices including stereolithographically fabricated hermetic packagesUS64825768 Ago 200019 Nov 2002Micron Technology, Inc.Surface smoothing of stereolithographically formed 3-D objectsUS648900714 Dic 20003 Dic 2002Micron Technology, Inc.Stereolithographically marked semiconductor devices and methodsUS651479813 Feb 20024 Feb 2003Micron Technology, Inc.Stereolithographic methods for fabricating hermetic semiconductor device packages and semiconductor devices including stereolithographically fabricated hermetic packagesUS652434626 Feb 199925 Feb 2003Micron Technology, Inc.Stereolithographic method for applying materials to electronic component substrates and resulting structuresUS654482115 Jun 20018 Abr 2003Micron Technology, Inc.Stereolithographic methods of fabricating semiconductor devices having protective layers thereon through which contact pads are exposedUS654490231 Ago 20008 Abr 2003Micron Technology, Inc.Energy beam patterning of protective layers for semiconductor devicesUS654982126 Feb 199915 Abr 2003Micron Technology, Inc.Stereolithographic method and apparatus for packaging electronic components and resulting structuresUS656227829 Ago 200013 May 2003Micron Technology, Inc.Methods of fabricating housing structures and micromachines incorporating such structuresUS658592714 Dic 20001 Jul 2003Micron Technology, Inc.Methods for labeling semiconductor device componentsUS659317113 Feb 200215 Jul 2003Micron Technology, Inc.Stereolithographic methods for fabricating hermetic semiconductor device packages and semiconductor devices including stereolithographically fabricated hermetic packagesUS663533329 Ago 200121 Oct 2003Micron Technology, Inc.Stereolithographically marked semiconductor devices and methodsOtras citasReferencia1Miller et al., "Maskless Mesoscale Materials Deposition", Deposition Technology, Sep. 2001, pp. 20-22.2Miller, "New Laser-Directed Deposition Technology", Microelectronic Fabrication, Aug. 2001, p. 16.3U.S. patent application No. 09/589,841, filed Jun. 8, 2000, entitled "Stereolithographic Methods for Forming a Protective Layer on a Semiconductor Device Substrate and Substrates Including Protective Layers So Formed", inventor Farnworth et al.4U.S. patent application No. 09/651,930, filed Aug. 31, 2000, entitled "Semiconductor Device Including Leads in Communication with Contact Pads Thereof and a Stereolithographically Fabricated Package Substantially Encapsulating the Leads and Methods for Fabricating the Same", inventor Salman Akram.5U.S. patent application No. 10/370,755, filed Feb. 20, 2003, entitled "Chip Scale Package Structures and Method of Forming Conductive Bumps Thereon", inventor Warren M. Farnworth.6U.S. patent application No. 10/608,749, filed Jun. 26, 2003, entitled "Methods for Labeling Semiconductor Device Components", inventor Grigg et al.7U.S. patent application No. 10/672,098, filed Sep. 26, 2003, entitled "Apparatus and Method for Use in Stereolithographic Processing of Components and Assemblies", inventor Warren M. Farnworth.8U.S. patent application No. 10/690,417, filed Oct. 20, 2003, entitled "Methods of Coating and Singulating Wafers and Chip-Scale Packages Formed Therefrom", inventor Farnworth et al.9U.S. patent application Publication No. 2002/0098623 A1 to Akram, dated Jul. 25, 2002.10U.S. patent application Publication No. 2002/0171177 A1 to Kritchman et al., dated Nov. 21, 2002.11U.S. patent application Publication No. 2003/0003180 A1 to Farnworth et al., dated Jan. 2, 2003.12U.S. patent application Publication No. 2003/0003380 A1 to Farnworth et al., dated Jan. 2, 2003.13U.S. patent application Publication No. 2003/0003405 A1 to Farnworth et al., dated Jan. 2, 2003.14U.S. patent application Publication No. 2003/0043360 A1 to Farnworth, dated Mar. 6, 2003.15U.S. patent application Publication No. 2003/0068584 A1 to Farnworth et al., dated Apr. 10, 2003.16U.S. patent application Publication No. 2003/0072926 A1 to Grigg et al., dated Apr. 17, 2003.17U.S. patent application Publication No. 2003/0077418 A1 to Grigg et al., dated Apr. 24, 2003.18U.S. patent Application Publication No. 2003/0089999 A1 to Akram, dated May 15, 2003.19U.S. patent application Publication No. 2003/009173 A1 to Farnworth et al., dated May 15, 2003.20U.S. patent application Publication No. 2003/0092220 A1 to Akram, dated May 15, 2003.21U.S. patent application Publication No. 2003/0102566 A1 to Farnworth, dated Jun. 5, 2003.22U.S. patent application Publication No. 2003/0151167 A1 to Kritchman et al., dated Aug. 14, 2003.23U.S. patent application Publication No. 2003/0201531 A1 to Farnworth et al., dated Oct. 30, 2003.24U.S. patent application Publication No. 2003/0203158 A1 to Farnworth et al., dated Oct. 30, 2003.25U.S. patent application Publication No. 2003/0207213 A1 to Farnworth, dated Nov. 6, 2003.26Webpage, Objet Prototyping the Future, How it Works, 2 pages.27Webpage, Objet Prototyping the Future, Objet FullCure700 Series, 1 page. Citada por Patente citante Fecha de presentaci�n Fecha de publicaci�n Solicitante T�tuloUS812983919 Jul 20056 Mar 2012Micron Technology, Inc.Electronic device package structuresGirarImagen originalP�gina principal de Google - Sitemap - Descargas masivas de USPTO - Pol�tica de privacidad - Condiciones de servicio - Acerca de Google Patentes - Danos tu opini�nDatos proporcionados por IFI CLAIMS Patent Services©2012 Google