Patents by Inventor Steve Bachman
Steve Bachman 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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DISSOLVABLE MICRO-INGREDIENT CONTAINERS AND METHODS FOR PREPARING ANIMAL FEEDS USING SUCH CONTAINERS
Publication number: 20220125075Abstract: The present invention relates to dissolvable containers for animal feed micro-ingredients, and methods for using such dissolvable containers to prepare an animal feed mixture. Ingredients required in very small amounts with respect to the rest of the components in an animal feed, i.e., micro-ingredients, can be pre-measured and sealed within the dissolvable containers, which can be made from a water-soluble polymer film, then added to the other feed components when the complete animal feed is being prepared.Type: ApplicationFiled: January 4, 2022Publication date: April 28, 2022Applicant: CAN Technologies, Inc.Inventors: Nathan Pike, Anna Taylor, Steve Bachman -
Dissolvable micro-ingredient containers and methods for preparing animal feeds using such containers
Patent number: 11234453Abstract: The present invention relates to dissolvable containers for animal feed micro-ingredients, and methods for using such dissolvable containers to prepare an animal feed mixture. Ingredients required in very small amounts with respect to the rest of the components in an animal feed, i.e., micro-ingredients, can be pre-measured and sealed within the dissolvable containers, which can be made from a water-soluble polymer film, then added to the other feed components when the complete animal feed is being prepared.Type: GrantFiled: April 20, 2017Date of Patent: February 1, 2022Assignee: Can Technologies, Inc.Inventors: Nathan Pike, Anna Taylor, Steve Bachman -
DISSOLVABLE MICRO-INGREDIENT CONTAINERS AND METHODS FOR PREPARING ANIMAL FEEDS USING SUCH CONTAINERS
Publication number: 20210219576Abstract: The present invention relates to dissolvable containers for animal feed micro-ingredients, and methods for using such dissolvable containers to prepare an animal feed mixture. Ingredients required in very small amounts with respect to the rest of the components in an animal feed, i.e., micro-ingredients, can be pre-measured and sealed within the dissolvable containers, which can be made from a water-soluble polymer film, then added to the other feed components when the complete animal feed is being prepared.Type: ApplicationFiled: April 20, 2017Publication date: July 22, 2021Applicant: CAN TECHNOLOGIES, INC.Inventors: Nathan PIKE, Anna TAYLOR, Steve BACHMAN -
Patent number: 9368332Abstract: A microchannel plate includes a substrate defining a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a predetermined resistivity that is substantially constant. An emissive layer is formed over the resistive layer. A top electrode is positioned on the top surface of the substrate. A bottom electrode positioned on the bottom surface of the substrate.Type: GrantFiled: April 30, 2012Date of Patent: June 14, 2016Assignee: Arradiance, LLCInventors: Neal T. Sullivan, Steve Bachman, Philippe de Rouffignac, Anton Tremsin, David Beaulieu, Dmitry Gorelikov
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Patent number: 9064676Abstract: A microchannel plate includes a substrate defining a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a predetermined resistivity that is substantially constant. An emissive layer is formed over the resistive layer. A top electrode is positioned on the top surface of the substrate. A bottom electrode positioned on the bottom surface of the substrate.Type: GrantFiled: March 14, 2013Date of Patent: June 23, 2015Assignee: Arradiance, Inc.Inventors: Neal T. Sullivan, Steve Bachman, Philippe de Rouffignac, Anton Tremsin, David Beaulieu, Dmitry Gorelikov
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Publication number: 20140028175Abstract: A microchannel plate includes a substrate defining a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a predetermined resistivity that is substantially constant. An emissive layer is formed over the resistive layer. A top electrode is positioned on the top surface of the substrate. A bottom electrode positioned on the bottom surface of the substrate.Type: ApplicationFiled: April 30, 2012Publication date: January 30, 2014Applicant: ARRADIANCE, INC.Inventors: Neal T. Sullivan, Steve Bachman, Philippe de Rouffignac, Anton Tremsin, David Beaulieu, Dmitry Gorelikov
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Publication number: 20130193831Abstract: A microchannel plate includes a substrate defining a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a predetermined resistivity that is substantially constant. An emissive layer is formed over the resistive layer. A top electrode is positioned on the top surface of the substrate. A bottom electrode positioned on the bottom surface of the substrate.Type: ApplicationFiled: March 14, 2013Publication date: August 1, 2013Applicant: Arrradiance, Inc.Inventors: Neal T. Sullivan, Steve Bachman, Philippe de Rouffignac, Anton Tremsin, David Beaulieu, Dmitry Gorelikov
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Publication number: 20120273689Abstract: A microchannel plate for detecting neutrons includes a hydrogen-rich polymer substrate that defines a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate, where neutrons interact with the plurality of channels to generate at least one secondary electron. A top electrode is positioned on the top surface of the substrate and a bottom electrode is positioned on the bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a resistivity that is substantially constant. An emissive layer is formed over the resistive layer. Neutron interaction products interact with the plurality of channels defined by the substrate and the emissive films to generate secondary electrons that cascade within the plurality of channels to provide an amplified signal related to the detection of neutrons.Type: ApplicationFiled: July 7, 2012Publication date: November 1, 2012Applicant: ARRADIANCE, INC.Inventors: Neal T. Sullivan, Anton Tremsin, Philippe de Rouffignac, David Beaulieu, Kourosh Saadatmand, Steve Bachman, Ken Stenton
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Patent number: 8237129Abstract: A microchannel plate for detecting neutrons includes a hydrogen-rich polymer substrate that defines a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate, where neutrons interact with the plurality of channels to generate at least one secondary electron. A top electrode is positioned on the top surface of the substrate and a bottom electrode is positioned on the bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a resistivity that is substantially constant. An emissive layer is formed over the resistive layer. Neutron interaction products interact with the plurality of channels defined by the substrate and the emissive films to generate secondary electrons that cascade within the plurality of channels to provide an amplified signal related to the detection of neutrons.Type: GrantFiled: February 24, 2009Date of Patent: August 7, 2012Assignee: Arradiance, Inc.Inventors: Neal T. Sullivan, Anton Tremsin, Philippe de Rouffignac, David Beaulieu, Kourosh Saadatmand, Steve Bachman, Ken Stenton, Dmitry Gorelikov
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Patent number: 8227965Abstract: A microchannel plate includes a substrate defining a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a predetermined resistivity that is substantially constant. An emissive layer is formed over the resistive layer. A top electrode is positioned on the top surface of the substrate. A bottom electrode positioned on the bottom surface of the substrate.Type: GrantFiled: June 20, 2008Date of Patent: July 24, 2012Assignee: Arradiance, Inc.Inventors: Neal T. Sullivan, Steve Bachman, Philippe de Rouffignac, Anton Tremsin, David Beaulieu, Dmitry Gorelikov
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Publication number: 20100044577Abstract: A microchannel plate for detecting neutrons includes a hydrogen-rich polymer substrate that defines a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate, where neutrons interact with the plurality of channels to generate at least one secondary electron. A top electrode is positioned on the top surface of the substrate and a bottom electrode is positioned on the bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a resistivity that is substantially constant. An emissive layer is formed over the resistive layer. Neutron interaction products interact with the plurality of channels defined by the substrate and the emissive films to generate secondary electrons that cascade within the plurality of channels to provide an amplified signal related to the detection of neutrons.Type: ApplicationFiled: February 24, 2009Publication date: February 25, 2010Applicant: Arradiance, Inc.Inventors: Neal T. Sullivan, Anton Tremsin, Phiippe De Rouffignac, David Beaulieu, Kourosh Saadatmand, Steve Bachman, Ken Stenton
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Publication number: 20090315443Abstract: A microchannel plate includes a substrate defining a plurality of channels extending from a top surface of the substrate to a bottom surface of the substrate. A resistive layer is formed over an outer surface of the plurality of channels that provides ohmic conduction with a predetermined resistivity that is substantially constant. An emissive layer is formed over the resistive layer. A top electrode is positioned on the top surface of the substrate. A bottom electrode positioned on the bottom surface of the substrate.Type: ApplicationFiled: June 20, 2008Publication date: December 24, 2009Applicant: ARRADIANCE, INC.Inventors: Neal T. Sullivan, Steve Bachman, Philippe de Rouffignac, Anton Tremsin, David Beaulieu