Patents by Inventor Paul Tsao
Paul Tsao 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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Publication number: 20240154277Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with the operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: ApplicationFiled: January 16, 2024Publication date: May 9, 2024Applicant: CelLink CorporationInventors: Kevin Michael Coakley, Malcolm Brown, Paul Tsao
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Patent number: 11894580Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with the operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: GrantFiled: July 14, 2023Date of Patent: February 6, 2024Assignee: CelLink CorporationInventors: Kevin Michael Coakley, Malcom Brown, Paul Tsao
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Publication number: 20230369731Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with the operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: ApplicationFiled: July 14, 2023Publication date: November 16, 2023Applicant: CelLink CorporationInventors: Kevin Michael Coakley, Malcom Brown, Paul Tsao
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Publication number: 20210175588Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: ApplicationFiled: February 19, 2021Publication date: June 10, 2021Applicant: CelLink CorporationInventors: KEVIN MICHAEL COAKLEY, Malcolm Brown, Paul Tsao
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Patent number: 10964931Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: GrantFiled: December 20, 2018Date of Patent: March 30, 2021Assignee: CELLINK CORPORATIONInventors: Kevin Michael Coakley, Malcolm Brown, Paul Tsao
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Publication number: 20190148707Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: ApplicationFiled: December 20, 2018Publication date: May 16, 2019Applicant: CelLink CorporationInventors: Kevin Michael Coakley, Malcolm Brown, Paul Tsao
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Patent number: 10211443Abstract: Provided are interconnects for interconnecting a set of battery cells, assemblies comprising these interconnects, methods of forming such interconnects, and methods of forming such assemblies. An interconnect includes a conductor comprising two portions electrically isolated from each other. At least one portion may include two contacts for connecting to battery cells and a fuse forming an electrical connection between these two contacts. The interconnect may also include an insulator adhered to the conductor and mechanically supporting the two portions of the conductor. The insulator may include an opening such that the fuse overlaps with this opening, and the opening does not interfere with operation of the fuse. In some embodiments, the fuse may not directly interface with any other structures. Furthermore, the interconnect may include a temporary substrate adhered to the insulator such that the insulator is disposed between the temporary substrate and the conductor.Type: GrantFiled: October 7, 2016Date of Patent: February 19, 2019Assignee: CELLINK CORPORATIONInventors: Kevin Michael Coakley, Malcolm Brown, Paul Tsao
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Patent number: 9023218Abstract: Methods of fabricating the fusible link are directed to processing a multi-layer clad foil having a first layer suitable for forming a fusible link and a second layer suitable for forming one or more welding tabs. In some embodiments, the first layer is an aluminum layer and the second layer is a nickel layer. A two-step etching process or a single step etching process is performed on the clad foil to form an etched clad foil having multiple tabs made of the second layer and connected to the current collector conductor pads and battery cell conductor pads, and one or more connections made of the first layer that form aluminum conductors. The aluminum conductors are shaped and sized to form aluminum fusible conductors during either the etching process or a subsequent stamping process. A single fusible link or an array of fusible links can be formed.Type: GrantFiled: July 9, 2013Date of Patent: May 5, 2015Assignee: SinoElectric Powertrain CorporationInventors: Peng Zhou, Paul Tsao
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Patent number: 8641273Abstract: Faulty battery detecting and locating devices and methods are able to detect and locate a faulty battery cell. The device applies an energy to a sensing member, such as a polymeric tube containing at least two polymer-coated and twisted electric wires. Heat that is generated by a faulty battery triggers an electric communication between the two electric wires by melting at least a portion of the polymer. The resulting change in resistance between the two electric wires is used to detect and locate a faulty battery.Type: GrantFiled: November 2, 2010Date of Patent: February 4, 2014Assignee: Sinoelectric Powertrain CorporationInventors: Peng Zhou, Paul Tsao, David Kevin Pariseau
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Publication number: 20130293342Abstract: Methods of fabricating the fusible link are directed to processing a multi-layer clad foil having a first layer suitable for forming a fusible link and a second layer suitable for forming one or more welding tabs. In some embodiments, the first layer is an aluminum layer and the second layer is a nickel layer. A two-step etching process or a single step etching process is performed on the clad foil to form an etched clad foil having multiple tabs made of the second layer and connected to the current collector conductor pads and battery cell conductor pads, and one or more connections made of the first layer that form aluminum conductors. The aluminum conductors are shaped and sized to form aluminum fusible conductors during either the etching process or a subsequent stamping process. A single fusible link or an array of fusible links can be formed.Type: ApplicationFiled: July 9, 2013Publication date: November 7, 2013Inventors: Peng Zhou, Paul Tsao
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Patent number: 8486283Abstract: Methods of fabricating the fusible link are directed to processing a multi-layer clad foil having a first layer suitable for forming a fusible link and a second layer suitable for forming one or more welding pads. In some embodiments, the first layer is an aluminum layer and the second layer is a nickel layer. A two-step etching process or a single step etching process is performed on the clad foil to form an etched clad foil having multiple tabs made of the second layer used as current collector conductor pads and battery cell conductor pads, and one or more tabs made of the first layer that form aluminum conductors. The aluminum conductors are shaped and sized to form aluminum fusible conductors during either the etching process or a subsequent stamping process. A single fusible link or an array of fusible links can be formed.Type: GrantFiled: November 2, 2010Date of Patent: July 16, 2013Assignee: Sinoelectric Powertrain CorporationInventors: Peng Zhou, Paul Tsao
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Patent number: 8267327Abstract: A payment card manufacturing process glues a thin battery and an autonomously reprogrammable magnetic device to the inside surface of one of two outer front and rear laminate sheets. The magnetic device is pressed through a precisely cut rectangular hole provided for it in the rear laminate sheet, and is sealed with a gasket bead. Such magnetic device is critically placed flush in a magnetic stripe area, and the end gaps are such that they will minimize adverse magnetic transitions seen by a reader between the magnetic stripe field and the autonomously reprogrammable magnetic device. The surfaces of the battery, electronics, and laminate sheets, are plasma treated to promote adhesion. These are then all sandwiched together inside a heated mold that is tilted or vibrated just before a two-part polyurethane is injected. Each of the two polyurethane parts is temperature adjusted to match viscosities and thus improve mixing.Type: GrantFiled: October 12, 2007Date of Patent: September 18, 2012Assignee: Qsecure, Inc.Inventors: Paul Tsao, Kerry D. Brown
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Publication number: 20120208063Abstract: A battery liquid temperature regulating device includes one or more battery cells thermally coupled to one or more temperature regulating modules. A first temperature regulating module is thermally coupled to one end of each battery cell, and in some embodiments, a second temperature regulating module is thermally coupled to the other end of each battery cell. Each temperature regulating module is configured with one or more channels. Heat is transferred between each battery cell end, the material of the temperature regulating module, and the liquid flowing through the one or more channels. The temperature regulating modules are also thermally coupled to current collecting elements electrically coupled to the battery cell to similarly transfer heat between these elements.Type: ApplicationFiled: February 16, 2011Publication date: August 16, 2012Applicant: SINOELECTRIC POWERTRAIN CORPORATIONInventors: Peng Zhou, Paul Tsao
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Publication number: 20120103930Abstract: Methods of fabricating the fusible link are directed to processing a multi-layer clad foil having a first layer suitable for forming a fusible link and a second layer suitable for forming one or more welding pads. In some embodiments, the first layer is an aluminum layer and the second layer is a nickel layer. A two-step etching process or a single step etching process is performed on the clad foil to form an etched clad foil having multiple tabs made of the second layer used as current collector conductor pads and battery cell conductor pads, and one or more tabs made of the first layer that form aluminum conductors. The aluminum conductors are shaped and sized to form aluminum fusible conductors during either the etching process or a subsequent stamping process. A single fusible link or an array of fusible links can be formed.Type: ApplicationFiled: November 2, 2010Publication date: May 3, 2012Applicant: SinoElectric Powertrain CorporationInventors: Peng Zhou, Paul Tsao
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Publication number: 20120106593Abstract: Faulty battery detecting and locating devices and methods are able to detect and locate a faulty battery cell. The device applies an energy to a sensing member, such as a polymeric tube containing at least two polymer-coated and twisted electric wires. Heat that is generated by a faulty battery triggers an electric communication between the two electric wires by melting at least a portion of the polymer. The resulting change in resistance between the two electric wires is used to detect and locate a faulty battery.Type: ApplicationFiled: November 2, 2010Publication date: May 3, 2012Applicant: SINOELECTRIC POWERTRAIN CORPORATIONInventors: Peng Zhou, Paul Tsao, David Kevin Pariseau
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Patent number: 8157001Abstract: An integrated cooling system includes a first layer having a contact area configured for coupling to a heat source, wherein the first layer has a fluid path passes adjacent to the contact area where the heat source is in thermal contact with first layer. Coupled to the first layer is a second layer to which a number of air fins are attached. A pump is connected to the fluid path forming a closed path for circulating a fluid through the first layer. Within the first layer, the fluid path will contain a plurality of fluid fins which control the flow of a fluid within the fluid path. Within the fluid path, a structure providing a double-counter flow adjacent to one or more electronic devices. Additionally the fluid path can include a microchannel plate structure. The system can include a programmable controller connect the an air-mover, pump and temperature sensing device.Type: GrantFiled: March 30, 2007Date of Patent: April 17, 2012Assignee: Cooligy Inc.Inventors: James Hom, Girish Upadhya, Douglas E. Werner, Mark Munch, Paul Tsao, Bruce Conway, Peng Zhou, Richard Brewer
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Publication number: 20110062239Abstract: A payment card manufacturing process for a magnetic device (QChip) with a bit coil array to individually write several dynamic magnetic data bits into the magnetic material. The magnetic device fits inside the payment card's magnetic strip and contributes to the data recorded statically in the magnetic stripe. The magnetic device edges physically nearest the leading and trailing dynamic magnetic data bits are trimmed very closely and precisely by scoring the tops with deep reactive ion etching to produce deep trenches, and then back-grinding up from underneath to the trench bottoms. The magnetic device is inserted into a high precision die or laser cut opening in the magnetic stripe in each payment card. The locations of the static magnetic bits in the magnetic stripe are precisely recorded maintaining continuous signal integrity and integration during card personalization after electronically sensing the X,Y locations of the magnetic device's dynamic magnetic data bits.Type: ApplicationFiled: September 12, 2009Publication date: March 17, 2011Inventors: Rachel Lau, Paul Tsao, Kerry Brown
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Patent number: 7836597Abstract: An structure and method of manufacturing a microstructure for use in a heat exchanger is disclosed. The heat exchanger comprises a manifold layer and an microstructured region. The manifold layer comprises a structure to deliver fluid to the microstructured region. The microstructured region is formed from multiple windowed layers formed from heat conductive layers through which a plurality of microscaled apertures have been formed by a wet etching process. The plurality of windowed layers are then coupled together to form a composite microstructure.Type: GrantFiled: January 6, 2006Date of Patent: November 23, 2010Assignee: Cooligy Inc.Inventors: Madhav Datta, Mark McMaster, Rick Brewer, Peng Zhou, Paul Tsao, Girish Upadhaya, Mark Munch
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Patent number: 7599184Abstract: Liquid-based cooling solutions used to transfer heat produced by one or more heat generating devices from one or more electronics servers to the ambient. Each electronics server includes one or more heat generating devices. Integrated onto each electronics server is a liquid based cooling system. Each liquid based cooling system includes a server pump and one or more microchannel cold plates (MCP) coupled together via fluid lines. The liquid based cooling system for each electronics server includes a rejector plate configured with micro-channels. The MCPs, the server pump and the rejector plate form a first closed loop. The rejector plate is coupled to a chassis cold plate via a thermal interface material. In a multiple electronics server configuration, the rejector plates for each of the electronics servers are coupled to the chassis cold plate configured with fluid channels which are coupled via fluid lines to a liquid-to-air heat exchanging system to form a second closed loop.Type: GrantFiled: February 16, 2007Date of Patent: October 6, 2009Assignee: Cooligy Inc.Inventors: Girish Upadhya, Mark Munch, Norman Chow, Paul Tsao, Douglas E. Werner, Mark McMaster, Frederic Landry, Ian Spearing, Tim Schrader
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Patent number: 7539020Abstract: A mounting system provides mechanisms and form factors for bringing a heat exchanger from a server rack into thermal contact with a heat exchanger from a electronics server. To ensure good thermal contact, pressure is applied between the two heat exchangers, the rejector plate and the chassis cold plate. The mounting mechanism used to engage and disengage the heat exchangers is configured to isolate the force applied to the two heat exchangers. The mounting mechanism includes an interlocking mechanism that prevents transfer of the applied force to the rest of the electronics server. Without isolating this force, the force is applied to the electronics server and/or the rack chassis, possibly disconnecting the electrical connections between the electronics server and the rack, as well as providing mechanical stress to the electronics server and the rack chassis.Type: GrantFiled: February 16, 2007Date of Patent: May 26, 2009Assignee: Cooligy Inc.Inventors: Norman Chow, Paul Tsao, Douglas E. Werner, Mark McMaster, Girish Upadhya, Frederic Landry, Ian Spearing, Tim Schrader