Patents by Inventor Eric S. Hall
Eric S. Hall 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: 9884838Abstract: The invention describes methods of preparation and compositions of plasticizers. The plasticizers include at least 2 alkyl ketal ester moieties and have a molecular weight of greater than 300. In one aspect, the alkyl ketal ester moieties are levulinic ester ketals. Certain compositions contain at least one of an antioxidant, a UV stabilizer, a thermal stabilizer or mixtures thereof, present in the composition from about 0.01 to about 5.0 percent by weight of the total composition.Type: GrantFiled: July 29, 2016Date of Patent: February 6, 2018Assignee: GFBIOCHEMICALS LIMITEDInventors: Brian D. Mullen, Vivek Badarinarayana, Eric S. Hall, Matthew J. Tjosaas, Cora M. Leibig
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Publication number: 20160332983Abstract: The invention describes methods of preparation and compositions of plasticizers. The plasticizers include at least 2 alkyl ketal ester moieties and have a molecular weight of greater than 300. In one aspect, the alkyl ketal ester moieties are levulinic ester ketals. Certain compositions contain at least one of an antioxidant, a UV stabilizer, a thermal stabilizer or mixtures thereof, present in the composition from about 0.01 to about 5.0 percent by weight of the total composition.Type: ApplicationFiled: July 29, 2016Publication date: November 17, 2016Inventors: Brian D. Mullen, Vivek Badarinarayana, Eric S. Hall, Matthew J. Tjossas, Cora M. Leibig
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Patent number: 8491095Abstract: Disclosed is a fluid ejection device that includes a nozzle plate. The nozzle plate includes a plurality of nozzles for fluid ejection. Further, the fluid ejection device includes a substrate disposed below the nozzle plate. The substrate includes a top surface adapted to adhere to the nozzle plate. The substrate also includes at least one fluid via configured within the substrate for providing fluid to the plurality of nozzles of the nozzle plate. Furthermore, the fluid ejection device includes at least one supporting structure configured within each fluid via of the at least one fluid via. The at least one supporting structure is further configured at a predetermined depth from the top surface of the substrate to regulate the flow of the fluid from the at least one fluid via to the plurality of nozzles. Further, disclosed is a method to fabricate the fluid ejection device.Type: GrantFiled: March 7, 2011Date of Patent: July 23, 2013Assignee: Funai Electric Co., Ltd.Inventors: Andrew L. McNees, David L. Bernard, Paul W. Dryer, Sean T. Weaver, Eric S. Hall
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Publication number: 20130100204Abstract: Disclosed is a system for regulating airflow velocity in a print gap region of a micro-fluid ejection device. The system includes a carrier member configured to carry an ejection head therewithin; a nozzle array configured at a bottom portion of the ejection head; and a channel member extending from a top portion of the carrier member and along a depth of the carrier member up to the bottom portion of the ejection head. Also, the channel member extends along at least a width of the nozzle array. Additionally, the channel member is configured to receive a flow of air through a slot configured at the top portion of the carrier member and to direct the flow of air from the top portion of the carrier member towards the bottom portion of the ejection head. Further disclosed is another system for regulating airflow velocity in a print gap region.Type: ApplicationFiled: October 19, 2011Publication date: April 25, 2013Inventors: Sam Norasak, David C. Weatherly, Shirish Mulay, Eric S. Hall, Adam Neal Chalin
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Publication number: 20120229569Abstract: Disclosed is a fluid ejection device that includes a nozzle plate. The nozzle plate includes a plurality of nozzles for fluid ejection. Further, the fluid ejection device includes a substrate disposed below the nozzle plate. The substrate includes a top surface adapted to adhere to the nozzle plate. The substrate also includes at least one fluid via configured within the substrate for providing fluid to the plurality of nozzles of the nozzle plate. Furthermore, the fluid ejection device includes at least one supporting structure configured within each fluid via of the at least one fluid via. The at least one supporting structure is further configured at a predetermined depth from the top surface of the substrate to regulate the flow of the fluid from the at least one fluid via to the plurality of nozzles. Further, disclosed is a method to fabricate the fluid ejection device.Type: ApplicationFiled: March 7, 2011Publication date: September 13, 2012Inventors: Andrew L. McNees, David L. Bernard, Paul W. Dryer, Sean T. Weaver, Eric S. Hall
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Patent number: 7236742Abstract: A mobile communication device is provided for wirelessly transferring information to and from a base unit. The device comprises an RFID module to receive a wake-up communication from the base unit and to send connection parameters back to the base unit. A wireless communication module is included that is responsive to the connection parameters received from the base unit. A microcontroller is coupled between the RFID module and the wireless communication module to wake-up the wireless communication module when the RFID module receives the wake-up communication from the base unit.Type: GrantFiled: June 18, 2002Date of Patent: June 26, 2007Assignee: Brigham Young UniversityInventors: Eric S. Hall, David K. Vawdrey, Charles D. Knutson
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Publication number: 20040203352Abstract: A mobile communication device is provided for wirelessly transferring information to and from a base unit. The device comprises an RFID module to receive a wake-up communication from the base unit and to send connection parameters back to the base unit. A wireless communication module is included that is responsive to the connection parameters received from the base unit. A microcontroller is coupled between the RFID module and the wireless communication module to wake-up the wireless communication module when the RFID module receives the wake-up communication from the base unit.Type: ApplicationFiled: June 18, 2002Publication date: October 14, 2004Inventors: Eric S. Hall, David K. Vawdrey, Charles D. Knutson
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Patent number: 6355772Abstract: A nonwoven fabric comprised of a lactide polymer. The lactide polymer comprises a plurality of poly(lactide) polymer chains, residual lactide in concentration of less than about 2 percent and water in concentration of less than about 2000 parts-per-million. A process for manufacturing a nonwoven fabric with the lactide polymer composition is also disclosed.Type: GrantFiled: May 9, 2000Date of Patent: March 12, 2002Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Christopher M. Ryan, Robin S. Eichen Conn, Eric S. Hall
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Patent number: 6111060Abstract: A nonwoven fabric comprised of a lactide polymer. The lactide polymer comprises a plurality of poly(lactide) polymer chains, residual lactide in concentration of less than about 2 percent and water in concentration of less than about 2000 parts-per-million. A process for manufacturing a nonwoven fabric with the lactide polymer composition is also disclosed.Type: GrantFiled: January 2, 1998Date of Patent: August 29, 2000Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Christopher M. Ryan, Robin S. Eichen Conn, Eric S. Hall
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Patent number: 5585191Abstract: An amorphous film comprised of a lactide polymer. The lactide polymer comprises a plurality of poly(lactide) polymer chains, residual lactide in concentration of less than about 2 percent and water in concentration of less than about 2000 parts-per-million. A process for manufacturing an amorphous film with the lactide polymer composition is also disclosed.Type: GrantFiled: September 13, 1995Date of Patent: December 17, 1996Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Christopher M. Ryan, Eric S. Hall, Robin S. Eichen Conn
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Patent number: 5539081Abstract: A lactide polymer composition combining compositional and purity limitations and catalyst optimization or addition of stabilizing agents resulting in a melt-stable polymer is disclosed. The melt-stable lactide polymer comprises a plurality of polylactide polymer chains, residual lactide in concentration of less than 2 percent and water in concentration of less than 1000 parts-per-million. A stabilizing agent in an amount sufficient to reduce depolymerization of the lactide polymer during melt-processing or alternatively, control of catalyst level at a molar ratio of monomer to catalyst greater than 3000:1 is also included in the melt-stable composition. A process for manufacture of a melt-stable lactide polymer composition includes polymerizing a lactide mixture and adding stabilizing agents sufficient to reduce depolymerization of the polylactide during melt-processing, followed by devolatilizing the polylactide to remove monomer and water.Type: GrantFiled: May 22, 1995Date of Patent: July 23, 1996Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Eric S. Hall, Robin S. Eichen Conn, Christopher M. Ryan
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Patent number: 5525706Abstract: A nonwoven fabric comprised of a lactide polymer. The lactide polymer comprises a plurality of poly(lactide) polymer chains, residual lactide in concentration of less than about 2 percent and water in concentration of less than about 2000 parts-per-million. A process for manufacturing a nonwoven fabric with the lactide polymer composition is also disclosed.Type: GrantFiled: October 25, 1994Date of Patent: June 11, 1996Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Christopher M. Ryan, Eric S. Hall, Robin S. Eichen Conn
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Patent number: 5484881Abstract: An amorphous film comprised of a lactide polymer. The lactide polymer comprises a plurality of poly(lactide) polymer chains, residual lactide in concentration of less than about 2 percent and water in concentration of less than about 2000 parts-per-million. A process for manufacturing an amorphous film with the lactide polymer composition is also disclosed.Type: GrantFiled: August 23, 1993Date of Patent: January 16, 1996Assignee: Cargill, Inc.Inventors: Patrick R. Gruber, Jeffrey J. Kolstad, Christopher M. Ryan, Eric S. Hall, Robin S. Eichen Conn
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Patent number: 5475080Abstract: A lactide polymer coating resulting in a strong, repulpable, high gloss, paper coating. The lactide polymer comprises a plurality of poly(lactide) polymer chains, residual lactide in concentration of less than about 5 percent and water in concentration of less than about 2000 parts-per-million. A process for coating paper with the lactide polymer composition is also disclosed.Type: GrantFiled: March 22, 1993Date of Patent: December 12, 1995Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Christopher M. Ryan, Eric S. Hall, Robin S. Eichen Conn
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Patent number: 5446123Abstract: A lactide polymer composition combining compositional and purity limitations and catalyst optimization or addition of stabilizing agents resulting in a melt-stable polymer is disclosed. The melt-stable lactide polymer comprises a plurality of polylactide polymer chains, residual lactide in concentration of less than 2 percent and water in concentration of less than 1000 parts-per-million. A stabilizing agent in an amount sufficient to reduce depolymerization of the lactide polymer during melt-processing or alternatively, control of catalyst level at a molar ratio of monomer to catalyst greater than 3000:1 is also included in the melt-stable composition. A process for manufacture of a melt-stable lactide polymer composition includes polymerizing a lactide mixture and adding stabilizing agents sufficient to reduce depolymerization of the polylactide during melt-processing, followed by devolatilizing the polylactide to remove monomer and water.Type: GrantFiled: April 25, 1994Date of Patent: August 29, 1995Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Eric S. Hall, Robin S. Eichen Conn, Christopher M. Ryan
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Patent number: 5357035Abstract: A process for the continuous production of polylactide polymers from lactic acid which incorporates removal of water or a solvent carrier to concentrate the lactic acid feed followed by polymerization to a low-molecular-weight prepolymer. This prepolymer is fed to a reactor in which a catalyst is added to facilitate generation of lactide, the depolymerization product of polylactic acid. The lactide generated is continuously fed to a distillation system as a liquid or vapor wherein water and other impurities are removed. The resultant purified liquid lactide is fed directly to a polymerization process.Type: GrantFiled: September 16, 1993Date of Patent: October 18, 1994Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Eric S. Hall, Jeffrey J. Kolstad, Matthew L. Iwen, Richard D. Benson, Ronald L. Borchardt
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Patent number: 5338822Abstract: A lactide polymer composition combining compositional and purity limitations and catalyst optimization or addition of stabilizing agents resulting in a melt-stable polymer is disclosed. The melt-stable lactide polymer comprises a plurality of polylactide polymer chains, residual lactide in concentration of less than 2 percent and water in concentration of less than 1000 parts-per-million. A stabilizing agent in an amount sufficient to reduce depolymerization of the lactide polymer during melt-processing or alternatively, control of catalyst level at a molar ratio of monomer to catalyst greater than 3000:1 is also included in the melt-stable composition. A process for manufacture of a melt-stable lactide polymer composition includes polymerizing a lactide mixture and adding stabilizing agents sufficient to reduce depolymerization of the polylactide during melt-processing, followed by devolatilizing the polylactide to remove monomer and water.Type: GrantFiled: October 2, 1992Date of Patent: August 16, 1994Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Jeffrey J. Kolstad, Eric S. Hall, Robin S. Eichen Conn, Christopher M. Ryan
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Patent number: 5274073Abstract: A process for the continuous conversion of crude lactic acid to a substantially purified lactide or polylactide including the steps of polymerizing the lactic acid to form a prepolymer with subsequent depolymerization to form a crude lactide in the presence of a catalyst. The crude lactide is purified in an improved distillation system in which at least three fractions are formed with the substantially purified lactide removed as an intermediate boiling sidedraw stream. The substantially purified lactide may then be polymerized.Type: GrantFiled: August 24, 1992Date of Patent: December 28, 1993Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Eric S. Hall, Jeffrey J. Kolstad, Matthew L. Iwen, Richard D. Benson, Ronald L. Borchardt
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Patent number: 5258488Abstract: A process for the continuous production of polylactide polymers from lactic acid which incorporates removal of water or a solvent carrier to concentrate the lactic acid feed followed by polymerization to a low-molecular-weight prepolymer. This prepolymer is fed to a reactor in which a catalyst is added to facilitate generation of lactide, the depolymerization product of polylactic acid. The lactide generated is continuously fed to a distillation system as a liquid or vapor wherein water and other impurities are removed. The resultant purified liquid lactide is fed directly to a polymerization process.Type: GrantFiled: August 7, 1992Date of Patent: November 2, 1993Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Eric S. Hall, Jeffrey J. Kolstad, Matthew L. Iwen, Richard D. Benson, Ronald L. Borchardt
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Patent number: 5247058Abstract: A process for the continuous production of polylactide polymers from lactic acid which incorporates removal of water or a solvent carrier to concentrate the lactic acid feed followed by polymerization to a low-molecular-weight prepolymer. This prepolymer is fed to a reactor in which a catalyst is added to facilitate generation of lactide, the depolymerization product of polylactic acid. The lactide generated is continuously fed to a distillation system as a liquid or vapor wherein water and other impurities are removed. The resultant purified liquid lactide is fed directly to a polymerization process.Type: GrantFiled: August 7, 1992Date of Patent: September 21, 1993Assignee: Cargill, IncorporatedInventors: Patrick R. Gruber, Eric S. Hall, Jeffrey J. Kolstad, Matthew L. Iwan, Richard D. Benson, Ronald L. Borchardt