Patents by Inventor Thomas J. Brunschwiler
Thomas J. Brunschwiler has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10882145Abstract: Adsorption heat exchanger devices (11, 25) are provided for use in solid sorption refrigeration systems (1) together with methods for making such devices and adsorbent structures therefor. The methods include applying a curable binder, in solution in a solvent, to granular adsorbent material, and then evaporating the solvent and curing the binder. The curable binder solution is sufficiently dilute that, during evaporation of the solvent, the binder becomes concentrated around contact points between granules (18) of the adsorbent material whereby localized bonds (19) are formed around the contact points on curing of the binder.Type: GrantFiled: June 6, 2018Date of Patent: January 5, 2021Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Thomas J. Brunschwiler, Javier V. Goicochea, Bruno Michel, Patrick Ruch
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Patent number: 10833049Abstract: A method for electrically coupling a pad and a front face of a pillar, including shaping the front face pillar, the front face having at least partially a convex surface, applying a suspension to the front face or to the pad, wherein the suspension includes a carrier fluid, electrically conducting microparticles and electrically conducting nanoparticles, arranging the front face of the pillar opposite to the pad at a distance such that the carrier fluid bridges at least partially a gap between the front face of the pillar and the pad, evaporating the carrier fluid thereby confining the microparticles and the nanoparticles, and thereby arranging the nanoparticles and the microparticles as percolation paths between the front face of the pillar and the pad, and sintering the arranged nanoparticles for forming metallic bonds at least between the nanoparticles and/or between the nanoparticles and the front face of the pillar or the pad.Type: GrantFiled: November 16, 2018Date of Patent: November 10, 2020Assignees: International Business Machines Corporation, NCC Nano, LLC, Technische Universitaet Chemnitz, SINTEFInventors: Thomas J. Brunschwiler, Richard Dixon, Maaike M. Visser Taklo, Bernhard Wunderle, Kerry Yu, Jonas Zuercher
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Patent number: 10777496Abstract: The present invention is directed to a method for interconnecting two components. The first component includes a first substrate and a set of structured metal pads arranged on a main surface. Each of the pads includes one or more channels, extending in-plane with an average plane of the pad, so as to form at least two raised structures. The second interconnect component includes a second substrate and a set of metal pillars arranged on a main surface. The structured metal pads are bonded to a respective, opposite one of the metal pillars, using metal paste. The paste is sintered to form porous metal joints at the level of the channels. Metal interconnects are obtained between the substrates. During the bonding, the metal paste is sintered by exposing the structured metal pads and metal pillars to a reducing agent. The channels and raised structures improve the penetration of the reducing agent.Type: GrantFiled: October 6, 2017Date of Patent: September 15, 2020Assignee: International Business Machines CorporationInventors: Thomas J. Brunschwiler, Luca Del Carro, Jonas Zürcher
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Patent number: 10727158Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.Type: GrantFiled: November 20, 2019Date of Patent: July 28, 2020Assignee: International Business Machines CorporationInventors: Thomas J. Brunschwiler, Timothy J. Chainer, Evan G. Colgan, Arvind Raj Mahankali Sridhar, Chin Lee Ong, Pritish R. Parida, Gerd Schlottig, Mark D. Schultz, Joel A. Silberman
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Patent number: 10727159Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.Type: GrantFiled: December 6, 2019Date of Patent: July 28, 2020Assignee: International Business Machines CorporatinInventors: Thomas J. Brunschwiler, Timothy J. Chainer, Evan G. Colgan, Arvind Raj Mahankali Sridhar, Chin Lee Ong, Pritish R. Parida, Gerd Schlottig, Mark D. Schultz, Joel A. Silberman
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Publication number: 20200118907Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.Type: ApplicationFiled: December 6, 2019Publication date: April 16, 2020Inventors: Thomas J. Brunschwiler, Timothy J. Chainer, Evan G. Colgan, Arvind Raj Mahankali Sridhar, Chin Lee Ong, Pritish R. Parida, Gerd Schlottig, Mark D. Schultz, Joel A. Silberman
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Patent number: 10622296Abstract: A circuitized substrate for mounting at least one electronic component having a plurality of terminals. The circuitized substrate includes a first portion of electrical insulating material embedding a first electric circuit for coupling a first subset of the terminals. The first electric circuit including one or more patterned conductive layers of electrically conductive material extending parallel to a plane of the circuitized substrate. The circuitized substrate further includes a second portion of electrically conductive material. One or more insulating elements of electrical insulating material cross the second portion transversally to the plane to insulate a plurality of conductive elements thereof for coupling a second subset of the terminals. One or more auxiliary components of the electronic component are mounted on the second portion. Each auxiliary component having a first terminal and a second terminal coupled with a first one and a second one, respectively, of a pair of the conductive elements.Type: GrantFiled: July 6, 2018Date of Patent: April 14, 2020Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Thomas J. Brunschwiler, Sebastian Gerke, Stefano Sergio Oggioni
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Patent number: 10622295Abstract: A circuitized substrate for mounting at least one electronic component having a plurality of terminals. The circuitized substrate includes a first portion of electrical insulating material embedding a first electric circuit for coupling a first subset of the terminals. The first electric circuit including one or more patterned conductive layers of electrically conductive material extending parallel to a plane of the circuitized substrate. The circuitized substrate further includes a second portion of electrically conductive material. One or more insulating elements of electrical insulating material cross the second portion transversally to the plane to insulate a plurality of conductive elements thereof for coupling a second subset of the terminals. One or more auxiliary components of the electronic component are mounted on the second portion. Each auxiliary component having a first terminal and a second terminal coupled with a first one and a second one, respectively, of a pair of the conductive elements.Type: GrantFiled: July 6, 2018Date of Patent: April 14, 2020Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Thomas J. Brunschwiler, Sebastian Gerke, Stefano Sergio Oggioni
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Patent number: 10607963Abstract: Devices that have integrated cooling structures for two-phase cooling and methods of assembly thereof are provided. In one example, a chip manifold can be affixed to a chip. An interface can be located at a first position between the chip manifold and the manifold cap. Furthermore, the interface can create a seal.Type: GrantFiled: September 15, 2016Date of Patent: March 31, 2020Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Thomas J. Brunschwiler, Timothy Joseph Chainer, Evan George Colgan, Michael Anthony Gaynes, Jeffrey Donald Gelorme, Gerard McVicker, Ozgur Ozsun, Pritish Ranjan Parida, Mark Delorman Schultz, Bucknell C. Webb
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Publication number: 20200091037Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.Type: ApplicationFiled: November 20, 2019Publication date: March 19, 2020Inventors: Thomas J. Brunschwiler, Timothy J. Chainer, Evan G. Colgan, Arvind Raj Mahankali Sridhar, Chin Lee Ong, Pritish R. Parida, Gerd Schlottig, Mark D. Schultz, Joel A. Silberman
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Patent number: 10529648Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.Type: GrantFiled: February 13, 2018Date of Patent: January 7, 2020Assignee: International Business Machines CorporationInventors: Thomas J. Brunschwiler, Timothy J. Chainer, Evan G. Colgan, Arvind Raj Mahankali Sridhar, Chin Lee Ong, Pritish R. Parida, Gerd Schlottig, Mark D. Schultz, Joel A. Silberman
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Patent number: 10278306Abstract: The invention relates to a cooling arrangement comprising a heat spreader (2) comprising a first surface (5), a second surface (8), at least one heat absorption chamber (9) and at least one heat dissipation chamber (10), the at least one heat absorption chamber (9) being in thermal contact with the first surface (5) and the at least one heat dissipation chamber (10) being in thermal contact with the second surface (8) and hydraulically coupled to the at least one heat absorption chamber (9). A cooling fluid (13) can be driven from the heat absorption chamber (9) to the heat dissipation chamber (10) using a plurality of flow patterns for cooling the first surface (5).Type: GrantFiled: February 26, 2015Date of Patent: April 30, 2019Assignee: GLOBAL FOUNDRIES INC.Inventors: Thomas J. Brunschwiler, Urs Kloter, Ryan Joseph Linderman, Bruno Michel, Hugo E. Rothuizen, Reto Waelchli
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Publication number: 20190109084Abstract: The present invention is directed to a method for interconnecting two components. The first component includes a first substrate and a set of structured metal pads arranged on a main surface. Each of the pads includes one or more channels, extending in-plane with an average plane of the pad, so as to form at least two raised structures. The second interconnect component includes a second substrate and a set of metal pillars arranged on a main surface. The structured metal pads are bonded to a respective, opposite one of the metal pillars, using metal paste. The paste is sintered to form porous metal joints at the level of the channels. Metal interconnects are obtained between the substrates. During the bonding, the metal paste is sintered by exposing the structured metal pads and metal pillars to a reducing agent. The channels and raised structures improve the penetration of the reducing agent.Type: ApplicationFiled: October 6, 2017Publication date: April 11, 2019Inventors: Thomas J. Brunschwiler, Luca Del Carro, Jonas Zürcher
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Publication number: 20190088617Abstract: A method for electrically coupling a pad and a front face of a pillar, including shaping the front face pillar, the front face having at least partially a convex surface, applying a suspension to the front face or to the pad, wherein the suspension includes a carrier fluid, electrically conducting microparticles and electrically conducting nanoparticles, arranging the front face of the pillar opposite to the pad at a distance such that the carrier fluid bridges at least partially a gap between the front face of the pillar and the pad, evaporating the carrier fluid thereby confining the microparticles and the nanoparticles, and thereby arranging the nanoparticles and the microparticles as percolation paths between the front face of the pillar and the pad, and sintering the arranged nanoparticles for forming metallic bonds at least between the nanoparticles and/or between the nanoparticles and the front face of the pillar or the pad.Type: ApplicationFiled: November 16, 2018Publication date: March 21, 2019Inventors: Thomas J. Brunschwiler, Richard Dixon, Maaike M. Visser Taklo, Bernhard Wunderle, Kerry Yu, Jonas Zuercher
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Patent number: 10170445Abstract: A method for electrically coupling a pad and a front face of a pillar, including shaping the front face pillar, the front face having at least partially a convex surface, applying a suspension to the front face or to the pad, wherein the suspension includes a carrier fluid, electrically conducting microparticles and electrically conducting nanoparticles, arranging the front face of the pillar opposite to the pad at a distance such that the carrier fluid bridges at least partially a gap between the front face of the pillar and the pad, evaporating the carrier fluid thereby confining the microparticles and the nanoparticles, and thereby arranging the nanoparticles and the microparticles as percolation paths between the front face of the pillar and the pad, and sintering the arranged nanoparticles for forming metallic bonds at least between the nanoparticles and/or between the nanoparticles and the front face of the pillar or the pad.Type: GrantFiled: November 5, 2015Date of Patent: January 1, 2019Assignees: INTERNATIONAL BUSINESS MACHINES CORPORATION, TECHNISCHE UNIVERSITAET CHEMNITZ, SINTEF, INTRINSIQ MATERIALS LTD.Inventors: Thomas J. Brunschwiler, Richard Dixon, Maaike M. Visser Taklo, Bernhard Wunderle, Kerry Yu, Jonas Zuercher
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Patent number: 10132433Abstract: Conduit connectors for liquid manifolds and methods of fabrication are provided. In one embodiment, a conduit connector is recessed, at least in part, within a liquid manifold, and includes a conduit-receiving opening or socket and at least one releasable retention component. The conduit-receiving opening is disposed within the liquid manifold and in fluid communication with at least one liquid-carrying channel of the liquid manifold. The releasable retention component(s) is selectively operative to threadlessly secure in a fluid-tight manner a conduit within the conduit-receiving opening in fluid communication with the at least one liquid-carrying channel of the liquid manifold to facilitate flow of liquid through the liquid-carrying channel(s), or to release the conduit from the conduit-receiving opening of the conduit connector. The releasable retention component(s) resides at least partially within the liquid manifold when operatively holding the conduit within the conduit-receiving opening.Type: GrantFiled: January 25, 2018Date of Patent: November 20, 2018Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Thomas J. Brunschwiler, Evan G. Colgan, Michael J. Ellsworth, Jr., Gerd Schlottig
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Publication number: 20180315696Abstract: A circuitized substrate for mounting at least one electronic component having a plurality of terminals. The circuitized substrate includes a first portion of electrical insulating material embedding a first electric circuit for coupling a first subset of the terminals. The first electric circuit including one or more patterned conductive layers of electrically conductive material extending parallel to a plane of the circuitized substrate. The circuitized substrate further includes a second portion of electrically conductive material. One or more insulating elements of electrical insulating material cross the second portion transversally to the plane to insulate a plurality of conductive elements thereof for coupling a second subset of the terminals. One or more auxiliary components of the electronic component are mounted on the second portion. Each auxiliary component having a first terminal and a second terminal coupled with a first one and a second one, respectively, of a pair of the conductive elements.Type: ApplicationFiled: July 6, 2018Publication date: November 1, 2018Inventors: Thomas J. Brunschwiler, Sebastian Gerke, Stefano Sergio Oggioni
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Publication number: 20180315697Abstract: A circuitized substrate for mounting at least one electronic component having a plurality of terminals. The circuitized substrate includes a first portion of electrical insulating material embedding a first electric circuit for coupling a first subset of the terminals. The first electric circuit including one or more patterned conductive layers of electrically conductive material extending parallel to a plane of the circuitized substrate. The circuitized substrate further includes a second portion of electrically conductive material. One or more insulating elements of electrical insulating material cross the second portion transversally to the plane to insulate a plurality of conductive elements thereof for coupling a second subset of the terminals. One or more auxiliary components of the electronic component are mounted on the second portion. Each auxiliary component having a first terminal and a second terminal coupled with a first one and a second one, respectively, of a pair of the conductive elements.Type: ApplicationFiled: July 6, 2018Publication date: November 1, 2018Inventors: Thomas J. Brunschwiler, Sebastian Gerke, Stefano Sergio Oggioni
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Patent number: 10107426Abstract: Conduit connectors for liquid manifolds and methods of fabrication are provided. In one embodiment, a conduit connector is integrated, at least in part, within a liquid manifold, and includes a conduit-receiving opening or socket and at least one releasable retention component. The conduit-receiving opening is disposed within the liquid manifold and in fluid communication with at least one liquid-carrying channel of the liquid manifold. The releasable retention component(s) is selectively operative to threadlessly secure in a fluid-tight manner a conduit within the conduit-receiving opening in fluid communication with the at least one liquid-carrying channel of the liquid manifold to facilitate flow of liquid through the liquid-carrying channel(s), or to release the conduit from the conduit-receiving opening of the conduit connector. The releasable retention component(s) resides at least partially within the liquid manifold when operatively holding the conduit within the conduit-receiving opening.Type: GrantFiled: August 12, 2015Date of Patent: October 23, 2018Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Thomas J. Brunschwiler, Evan G. Colgan, Michael J. Ellsworth, Jr., Gerd Schlottig
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Publication number: 20180281127Abstract: Adsorption heat exchanger devices (11, 25) are provided for use in solid sorption refrigeration systems (1) together with methods for making such devices and adsorbent structures therefor. The methods include applying a curable binder, in solution in a solvent, to granular adsorbent material, and then evaporating the solvent and curing the binder. The curable binder solution is sufficiently dilute that, during evaporation of the solvent, the binder becomes concentrated around contact points between granules (18) of the adsorbent material whereby localized bonds (19) are formed around the contact points on curing of the binder.Type: ApplicationFiled: June 6, 2018Publication date: October 4, 2018Applicant: International Business Machines CorporationInventors: Thomas J. Brunschwiler, Javier V. Goicochea, Bruno Michel, Patrick Ruch