Patents by Inventor Gregory A. Kirkos
Gregory A. Kirkos 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: 11950638Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: GrantFiled: April 28, 2023Date of Patent: April 9, 2024Assignee: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20230263215Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: ApplicationFiled: April 28, 2023Publication date: August 24, 2023Applicant: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Patent number: 11666088Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: GrantFiled: August 16, 2022Date of Patent: June 6, 2023Assignee: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Patent number: 11626273Abstract: Various disclosed embodiments include thermionic energy converters with a thermal concentrating hot shell and emitters for thermionic energy converters. In some embodiments, an illustrative thermionic energy converter includes: an emitter electrode; a hot shell configured to concentrate heat flow toward the emitter electrode; a collector electrode; and a cold shell that is thermally isolated from the hot shell.Type: GrantFiled: April 6, 2020Date of Patent: April 11, 2023Assignee: Modern Electron, Inc.Inventors: Stephen E. Clark, David A. Degtiarov, Gregory A. Kirkos, Daniel Kraemer, John J. Lorr, Max N. Mankin, Jason M. Parker, Alexander J. Pearse, Levi D. Rodriguez, Ad de Pijper
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Publication number: 20230081038Abstract: A dosage sensing module for or in a pen drug delivery device and comprising a power source unit, a processor unit and a dosage sensor unit with a first sensor part adapted to be fixed to a part not rotating during dose expelling and comprising a flexible printed circuit board sheet on which a pattern of individual electrical conductive sensor areas are arranged. The sensor unit further comprises a second sensor part adapted to be fixed to the piston rod to follow the rotation thereof during dose expelling. The second sensor part comprises individual structures that together with the conductive sensor areas are adapted to, upon relative rotational movement between the first and second sensor part, provide electrical signals to a processor unit indicative of the relative rotational position between the first and second sensor part.Type: ApplicationFiled: November 22, 2022Publication date: March 16, 2023Inventors: Carsten Schau Andersen, Dave Szakelyhidi, Jakob Oest Wielandt, Matthew William Haave, Blake Matsuzaki, Gregory A. Kirkos, Nikolaj Eusebius Jakobsen
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Publication number: 20230047657Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: ApplicationFiled: August 16, 2022Publication date: February 16, 2023Applicant: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Patent number: 11534554Abstract: A dosage sensing module for or in a pen drug delivery device and comprising a power source unit, a processor unit and a dosage sensor unit with a first sensor part adapted to be fixed to a part not rotating during dose expelling and comprising a flexible printed circuit board sheet on which a pattern of individual electrical conductive sensor areas are arranged. The sensor unit further comprises a second sensor part adapted to be fixed to the piston rod to follow the rotation thereof during dose expelling. The second sensor part comprises individual structures that together with the conductive sensor areas are adapted to, upon relative rotational movement between the first and second sensor part, provide electrical signals to a processor unit indicative of the relative rotational position between the first and second sensor part.Type: GrantFiled: January 22, 2018Date of Patent: December 27, 2022Assignee: NOVO NORDISK A/SInventors: Carsten Schau Andersen, Dave Szakelyhidi, Jakob Oest Wielandt, Matthew William Haave, Blake Matsuzaki, Gregory A. Kirkos, Nikolaj Eusebius Jakobsen
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Patent number: 11425931Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: GrantFiled: February 22, 2021Date of Patent: August 30, 2022Assignee: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20220103922Abstract: A sensing system comprising a hand-held sensing device with a vibracoustic sensor module (VSM). The VSM comprises a voice coil component comprising a coil holder supporting wire windings; a magnet component comprising a magnet supported by a frame, a magnet gap configured to receive at least a portion of the voice coil component in a spaced and moveable manner; a connector connecting the voice coil component to the magnet component, the connector being compliant and permitting relative movement of the voice coil component and the magnet component; a diaphragm configured to induce a movement of the voice coil component in the magnet gap responsive to incident acoustic waves; a housing for retaining the vibroacoustic sensor module having a handle end and a sensor end, the sensor end having an opening, the VSM positioned such that at least a portion of the diaphragm extends across the opening.Type: ApplicationFiled: December 9, 2021Publication date: March 31, 2022Inventors: Nelson L. JUMBE, Andreas SCHUH, Peter REXELIUS, Michael MORIMOTO, Dimosthenis KATSIS, Nikola KNEZEVIC, Steve KRAWCZYK, Kevin HAMMOND, Krzysztof KRAWIEC, Gregory A. KIRKOS
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Patent number: 11240579Abstract: A sensing system comprising a hand-held sensing device with a vibracoustic sensor module (VSM). The VSM comprises a voice coil component comprising a coil holder supporting wire windings; a magnet component comprising a magnet supported by a frame, a magnet gap configured to receive at least a portion of the voice coil component in a spaced and moveable manner; a connector connecting the voice coil component to the magnet component, the connector being compliant and permitting relative movement of the voice coil component and the magnet component; a diaphragm configured to induce a movement of the voice coil component in the magnet gap responsive to incident acoustic waves; a housing for retaining the vibroacoustic sensor module having a handle end and a sensor end, the sensor end having an opening, the VSM positioned such that at least a portion of the diaphragm extends across the opening.Type: GrantFiled: November 12, 2020Date of Patent: February 1, 2022Assignee: LEVEL 42 AIInventors: Nelson L. Jumbe, Andreas Schuh, Peter Rexelius, Michael Morimoto, Dimosthenis Katsis, Nikola Knezevic, Steve Krawczyk, Kevin Hammond, Krzysztof Krawiec, Gregory A. Kirkos
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Publication number: 20220007712Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: ApplicationFiled: February 22, 2021Publication date: January 13, 2022Inventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20210345939Abstract: A sensing system comprising a a hand-held sensing device with a vibracoustic sensor module (VSM). The VSM comprises a voice coil component comprising a coil holder supporting wire windings; a magnet component comprising a magnet supported by a frame, a magnet gap configured to receive at least a portion of the voice coil component in a spaced and moveable manner; a connector connecting the voice coil component to the magnet component, the connector being compliant and permitting relative movement of the voice coil component and the magnet component; a diaphragm configured to induce a movement of the voice coil component in the magnet gap responsive to incident acoustic waves; a housing for retaining the vibroacoustic sensor module having a handle end and a sensor end, the sensor end having an opening, the VSM positioned such that at least a portion of the diaphragm extends across the opening.Type: ApplicationFiled: November 12, 2020Publication date: November 11, 2021Inventors: Nelson L. JUMBE, Andreas SCHUH, Peter REXELIUS, Michael MORIMOTO, Dimosthenis KATSIS, Nikola KNEZEVIC, Steve KRAWCZYK, Kevin HAMMOND, Krzysztof KRAWIEC, Gregory A. KIRKOS
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Publication number: 20210128841Abstract: A dosage sensing module for or in a pen drug delivery device and comprising a power source unit, a processor unit and a dosage sensor unit with a first sensor part adapted to be fixed to a part not rotating during dose expelling and comprising a flexible printed circuit board sheet on which a pattern of individual electrical conductive sensor areas are arranged. The sensor unit further comprises a second sensor part adapted to be fixed to the piston rod to follow the rotation thereof during dose expelling. The second sensor part comprises individual structures that together with the conductive sensor areas are adapted to, upon relative rotational movement between the first and second sensor part, provide electrical signals to a processor unit indicative of the relative rotational position between the first and second sensor part.Type: ApplicationFiled: January 22, 2018Publication date: May 6, 2021Inventors: Carsten Schau Andersen, Dave Szakelyhidi, Jakob Oest Wielandt, Matthew William Haave, Blake Matsuzaki, Gregory A. Kirkos
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Patent number: 10959464Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: GrantFiled: January 30, 2020Date of Patent: March 30, 2021Assignee: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20200337371Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: ApplicationFiled: January 30, 2020Publication date: October 29, 2020Inventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20200335314Abstract: Various disclosed embodiments include thermionic energy converters with a thermal concentrating hot shell and emitters for thermionic energy converters. In some embodiments, an illustrative thermionic energy converter includes: an emitter electrode; a hot shell configured to concentrate heat flow toward the emitter electrode; a collector electrode; and a cold shell that is thermally isolated from the hot shell.Type: ApplicationFiled: April 6, 2020Publication date: October 22, 2020Applicant: Modern Electron, Inc.Inventors: Stephen E. Clark, David A. Degtiarov, Gregory A. Kirkos, Daniel Kraemer, John J. Lorr, Max N. Mankin, Jason M. Parker, Alexander J. Pearse, Levi D. Rodriguez, Ad de Pijper
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Patent number: 10588356Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: GrantFiled: March 26, 2019Date of Patent: March 17, 2020Assignee: Zenigata LLCInventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20200022410Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: ApplicationFiled: March 26, 2019Publication date: January 23, 2020Inventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Publication number: 20190090542Abstract: There is provided an electronically controlled, breath actuated vaporization device for generating vaporized material for inhalation by a user. The vaporization device includes a vaporization chamber for accommodating material to be vaporized and a mesh heater or other heater supported upstream of the vaporization chamber which is operable to heat air that passes through the mesh heater or other heater during an inhalation event. A closed loop control scheme may be employed to control heat generated by the heater to maintain a temperature of the air delivered to the vaporization chamber at or within a predetermined tolerance of a desired vaporization temperature for at least a majority of a duration of the inhalation event.Type: ApplicationFiled: September 20, 2018Publication date: March 28, 2019Inventors: Christopher B. Harrison, Steven A. Rodriguez, Gregory A. Kirkos, Alga Lloyd Nothern, III, Dainia Edwards, Joseph N. Kennelly Ullman, Eric W. Healy
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Patent number: 10213965Abstract: A truss-formation apparatus comprising two truss makers and a lateral stage, wherein the truss makers create trusses and each truss maker comprises thermal dies, heaters with temperature sensors, and mandrels; wherein the truss makers form trusses that comprise parallel truss elements and battens; wherein a pultrusion actuator pulls parallel truss elements down along a mandrel; wherein a batten actuator causes a thermal die to rotate around a mandrel forming battens that connect parallel truss elements to one another; and wherein the lateral stage comprises a thermal die and traverses the gap between the parallel trusses forming cross members that connect the trusses.Type: GrantFiled: November 25, 2014Date of Patent: February 26, 2019Assignee: TETHERS UNLIMITED INCInventors: Robert Hoyt, Gregory Kirkos, Jeffrey Slostad, Gregory Jimmerson, Todd Moser, Mark Jaster, Nicholas Barsalou