Patents by Inventor James Forster
James Forster 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: 20220064671Abstract: The present disclosure describes methods and systems for use in the production of adeno-associated virus (AAV) particles, comprising recombinant adeno-associated virus (rAAV) particles. In certain embodiments, the production process and system use Sf9 insect cells as viral production cells. In certain embodiments, the production process and system use Baculoviral Expression Vectors (BEVs) and Baculoviral Infected Insect Cells (BIICs) in the production of AAV particles.Type: ApplicationFiled: January 17, 2020Publication date: March 3, 2022Inventors: Luis Maranga, Christopher J. Morrison, Krishanu Mathur, Matthew Luther, Daniel S. Hurwit, Jacob J. Cardinal, Lori B. Karpes, Aditya Ansondaria, James Forster, David Dismuke, Robert Steininger
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Publication number: 20130323488Abstract: A packaging film having enhanced barrier, sealability, and flex-crack resistance characteristics and is ideal for use in packaging of food products, such as cheese and meat, to increase shelf life thereof.Type: ApplicationFiled: May 17, 2013Publication date: December 5, 2013Applicant: Prolamina Midwest CorporationInventors: Seyed Hesamoddin Tabatabaei, Terry Leis, Chad Perre, James Forster
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Publication number: 20080188154Abstract: A laminate includes at least one layer of an environmentally degradable film, for example, a polylactide (“PLA”) polymer made from an annually-renewable, readily-available resource such as corn. A second layer may be a substrate made from, for example, paper, woven or non-woven fabrics or metallic foils. The environmentally degradable film and the substrate are adhered to one another using, for example, polymeric extrudates or adhesives such as water-based, hot melt, solvent-based or solvent-less adhesives. The choice of adherent depends on the type of substrate to be laminated to the environmentally degradable film and the desired properties of the resultant composite laminated structure (i.e., “laminate”). Such film laminates find use, for example, in the packaging, envelope, tag and label, forms, commercial publication, and digital print industries. Traditional converting equipment may be used to convert the film laminate into rolls, folio sheets and cut size formats as required.Type: ApplicationFiled: December 17, 2007Publication date: August 7, 2008Applicant: Jen-Coat, Inc.Inventors: Terry Leis, James Forster, David Hopkins
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Patent number: 6636063Abstract: A probe card having reliable “micro probe” contacts which include a base and an angled probe tip fabricated as a single unit from a thin sheet of a conductive metal having high tensile and yield strength, and coated with a noble metal. The micro probes are secured into precisely dimensioned, and positioned locations on the card, and are electrically connected to traces on the card. Design of the micro probes includes not only the base and probe tip, but also locking features, a stand-off to prevent over compression, and a necked down stem feature for release from the support strap used in transporting and plating during the manufacturing processes.Type: GrantFiled: October 2, 2001Date of Patent: October 21, 2003Assignee: Texas Instruments IncorporatedInventors: Richard W. Arnold, James Forster, Reynaldo M. Rincon, Lester Wilson
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Publication number: 20030088975Abstract: A test structure that is readily and inexpensively configurable to interface with dies having different bond pad configurations is achieved by providing a blank test membrane having a conductive coating or a matrix of conductive lines formed thereon. Once a die bond pad configuration is known, the test membrane can be configured for the die bond pads by using a laser under software control to define connection pads correlating to the die bond pads and also to define interconnecting conductive traces from the connecting pads to contact pads that can be connected to test equipment. In one embodiment, the laser operates to ablate a continuous conductive coating, so as to form conductive pads and traces. In another embodiment, the laser is used to cut various lines in a matrix of conductive lines, so as to define conductive paths from the bond pads to the contact pads for connection to the test equipment.Type: ApplicationFiled: December 30, 2002Publication date: May 15, 2003Inventors: Richard W. Arnold, Lester Wilson, James Forster
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Patent number: 6553661Abstract: A test structure that is readily and inexpensively configurable to interface with dies having different bond pad configurations is achieved by providing a blank test membrane having a conductive coating or a matrix of conductive lines formed thereon. Once a die bond pad configuration is known, the test membrane can be configured for the die bond pads by using a laser under software control to define connection pads correlating to the die bond pads and also to define interconnecting conductive traces from the connecting pads to contact pads that can be connected to test equipment. In one embodiment, the laser operates to ablate a continuous conductive coating, so as to form conductive pads and traces. In another embodiment, the laser is used to cut various lines in a matrix of conductive lines, so as to define conductive paths from the bond pads to the contact pads for connection to the test equipment.Type: GrantFiled: January 4, 2001Date of Patent: April 29, 2003Assignee: Texas Instruments IncorporatedInventors: Richard W. Arnold, Lester Wilson, James Forster
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Publication number: 20030062915Abstract: A probe card having reliable “micro probe” contacts which include a base and an angled probe tip fabricated as a single unit from a thin sheet of a conductive metal having high tensile and yield strength, and coated with a noble metal. The micro probes are secured into precisely dimensioned, and positioned locations on the card, and are electrically connected to traces on the card. Design of the micro probes includes not only the base and probe tip, but also locking features, a stand-off to prevent over compression, and a necked down stem feature for release from the support strap used in transporting and plating during the manufacturing processes.Type: ApplicationFiled: October 2, 2001Publication date: April 3, 2003Inventors: Richard W. Arnold, James Forster, Reynaldo M. Rincon, Lester Wilson
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Publication number: 20020084799Abstract: A test structure that is readily and inexpensively configurable to interface with dies having different bond pad configurations is achieved by providing a blank test membrane having a conductive coating or a matrix of conductive lines formed thereon. Once a die bond pad configuration is known, the test membrane can be configured for the die bond pads by using a laser under software control to define connection pads correlating to the die bond pads and also to define interconnecting conductive traces from the connecting pads to contact pads that can be connected to test equipment. In one embodiment, the laser operates to ablate a continuous conductive coating, so as to form conductive pads and traces. In another embodiment, the laser is used to cut various lines in a matrix of conductive lines, so as to define conductive paths from the bond pads to the contact pads for connection to the test equipment.Type: ApplicationFiled: January 4, 2001Publication date: July 4, 2002Inventors: Richard W. Arnold, Lester Wilson, James Forster
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Patent number: 5653379Abstract: Ceramic to metal stock or substrates having a relatively large and thick metal core and a relatively thin ceramic layer or layers are bonded to the metal core or a selected portion thereof by providing a metal core material having a temperature coefficient of expansion which is tailored to the temperature coefficient of expansion of the ceramic layer to be bonded thereto. The typical core materials include multilayer composite metal laminates embodying Cu/Mo/Cu, Cu/Kovar/Cu, Cu/Invar/Cu and the like and including powdered metal composites embodying Cu-W, Ag-Mo, Ag-W, Al-Si, Cu/Mo/Cu, Cu/Kovar/Cu, SiC-Cu, Ni-Fe alloys having from about 20% Ni to about 80% Ni, etc. The ceramic layer is chosen primarily for the properties of dielectric strength and isolation properties and typically include such ceramics as alumina, beryllium oxide, aluminum nitride, silicon carbide, etc.Type: GrantFiled: June 2, 1995Date of Patent: August 5, 1997Assignee: Texas Instruments IncorporatedInventors: James Forster, Premkumar Hingorany, Henry F. Breit
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Patent number: 5536906Abstract: In one form of the invention, a package for integrated circuits and devices (42), (46) is disclosed, the package including: a package base (44), the base having a first top surface; a layer of material (43) on the first top surface of the base (44) wherein the material (43) is patterned to cover a portion of the base, and wherein the layer of material (43) forms a substrate having a second top surface; a microstrip transmission line (45) on the second top surface; and a plastic encapsulant (50), wherein the encapsulant covers the first top surface of the base.Type: GrantFiled: July 23, 1993Date of Patent: July 16, 1996Assignee: Texas Instruments IncorporatedInventors: Glen R. Haas, Jr., John E. Barnett, Jr., Stephen R. Nelson, Douglas J. Darrow, Susan V. Bagen, Henry Breit, James Forster