Patents by Inventor Lucas D. Barkley
Lucas D. Barkley 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: 20230320184Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: ApplicationFiled: May 8, 2023Publication date: October 5, 2023Applicant: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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Patent number: 11678561Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: GrantFiled: January 13, 2022Date of Patent: June 13, 2023Assignee: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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Techniques for print ink droplet measurement and control to deposit fluids within precise tolerances
Patent number: 11489146Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different printhead/substrate scan offsets, offsets between printheads, the use of different nozzle drive waveforms, and/or other techniques. These combinations can be based on repeated, rapid droplet measurements that develop understandings for each nozzle of means and spreads for expected droplet volume, velocity and trajectory, with combinations of droplets being planned based on these statistical parameters. Optionally, random fill variation can be introduced so as to mitigate Mura effects in a finished display device. The disclosed techniques have many possible applications.Type: GrantFiled: February 10, 2021Date of Patent: November 1, 2022Assignee: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan, Gregory Lewis, Alexander Sou-Kang Ko, Valerie Gassend -
Publication number: 20220140296Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: ApplicationFiled: January 13, 2022Publication date: May 5, 2022Applicant: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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Patent number: 11233226Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: GrantFiled: August 21, 2020Date of Patent: January 25, 2022Assignee: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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TECHNIQUES FOR PRINT INK DROPLET MEASUREMENT AND CONTROL TO DEPOSIT FLUIDS WITHIN PRECISE TOLERANCES
Publication number: 20210167339Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different printhead/substrate scan offsets, offsets between printheads, the use of different nozzle drive waveforms, and/or other techniques. These combinations can be based on repeated, rapid droplet measurements that develop understandings for each nozzle of means and spreads for expected droplet volume, velocity and trajectory, with combinations of droplets being planned based on these statistical parameters. Optionally, random fill variation can be introduced so as to mitigate Mura effects in a finished display device. The disclosed techniques have many possible applications.Type: ApplicationFiled: February 10, 2021Publication date: June 3, 2021Applicant: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan, Gregory Lewis, Alexander Sou-Kang Ko, Valerie Gassend -
Techniques for print ink droplet measurement and control to deposit fluids within precise tolerances
Patent number: 10950826Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different printhead/substrate scan offsets, offsets between printheads, the use of different nozzle drive waveforms, and/or other techniques. These combinations can be based on repeated, rapid droplet measurements that develop understandings for each nozzle of means and spreads for expected droplet volume, velocity and trajectory, with combinations of droplets being planned based on these statistical parameters. Optionally, random fill variation can be introduced so as to mitigate Mura effects in a finished display device. The disclosed techniques have many possible applications.Type: GrantFiled: August 9, 2019Date of Patent: March 16, 2021Assignee: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan, Gregory Lewis, Alexander Sou-Kang Ko, Valerie Gassend -
Patent number: 10857807Abstract: An imaging apparatus includes a print engine having a printhead that generates ink drops, and a printhead carrier that carries the printhead in a first direction and in a second direction opposite the first direction. A controller determines an initial print direction based on ink drop information obtained by printing patches in the first direction and in the second direction, wherein the ink drop information includes a respective chromatic value of each of the patches. The controller is operatively coupled to the print engine to print an image based on the initial print direction.Type: GrantFiled: May 1, 2019Date of Patent: December 8, 2020Inventors: Lucas D. Barkley, Stephen T. Olson
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Publication number: 20200381675Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: ApplicationFiled: August 21, 2020Publication date: December 3, 2020Applicant: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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Patent number: 10797270Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: GrantFiled: November 28, 2016Date of Patent: October 6, 2020Assignee: KATEEVA, INC.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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Techniques for print ink droplet measurement and control to deposit fluids within precise tolerances
Patent number: 10784470Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different printhead/substrate scan offsets, offsets between printheads, the use of different nozzle drive waveforms, and/or other techniques. These combinations can be based on repeated, rapid droplet measurements that develop understandings for each nozzle of means and spreads for expected droplet volume, velocity and trajectory, with combinations of droplets being planned based on these statistical parameters. Optionally, random fill variation can be introduced so as to mitigate Mura effects in a finished display device. The disclosed techniques have many possible applications.Type: GrantFiled: September 27, 2017Date of Patent: September 22, 2020Assignee: KATEEVA, INC.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan, Gregory Lewis, Alexander Sou-Kang Ko, Valerie Gassend -
Patent number: 10784472Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different print head/substrate scan offsets, offsets between print heads, the use of different nozzle drive waveforms, and/or other techniques. Optionally, patterns of fill variation can be introduced so as to mitigate observable line effects in a finished display device. The disclosed techniques have many other possible applications.Type: GrantFiled: October 29, 2018Date of Patent: September 22, 2020Assignee: KATEEVA, INC.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan
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Techniques for Print Ink Droplet Measurement and Control to Deposit Fluids within Precise Tolerances
Publication number: 20200028126Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different printhead/substrate scan offsets, offsets between printheads, the use of different nozzle drive waveforms, and/or other techniques. These combinations can be based on repeated, rapid droplet measurements that develop understandings for each nozzle of means and spreads for expected droplet volume, velocity and trajectory, with combinations of droplets being planned based on these statistical parameters. Optionally, random fill variation can be introduced so as to mitigate Mura effects in a finished display device. The disclosed techniques have many possible applications.Type: ApplicationFiled: August 9, 2019Publication date: January 23, 2020Applicant: Kateeva, Inc.Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan, Gregory Lewis, Alexander Sou-Kang Ko, Valerie Gassend -
Patent number: 10429810Abstract: A controller for controlling a microfluidic device. A first computing device receives commands from a user interface in a relatively high level protocol using a standardized command language, converts the commands from the standardized command language into a relatively mid-level protocol, sends the commands in the relatively mid-level protocol, receiving data, converts the data into the standardized command language, and sends the data to the user interface according to the standardized command language. A second computing device receives the commands from the first computing device in the relatively mid-level protocol, converts the commands from the relatively mid-level protocol to at least one relatively lower level protocol that is understood by a microfluidic device that is connected to the controller, receives data from the microfluidic device, and sends the data to the first computing device.Type: GrantFiled: June 7, 2016Date of Patent: October 1, 2019Assignee: Funai Electric Co. Ltd.Inventors: J. Glenn Edelen, Bruce A. Deboard, Lucas D. Barkley
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Publication number: 20190255860Abstract: An imaging apparatus includes a print engine having a printhead that generates ink drops, and a printhead carrier that carries the printhead in a first direction and in a second direction opposite the first direction. A controller determines an initial print direction based on ink drop information obtained by printing patches in the first direction and in the second direction, wherein the ink drop information includes a respective chromatic value of each of the patches. The controller is operatively coupled to the print engine to print an image based on the initial print direction.Type: ApplicationFiled: May 1, 2019Publication date: August 22, 2019Inventors: Lucas D. Barkley, Stephen T. Olson
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Techniques for Print Ink Droplet Measurement and Control to Deposit Fluids within Precise Tolerances
Publication number: 20190252646Abstract: An ink printing process employs per-nozzle droplet volume measurement and processing software that plans droplet combinations to reach specific aggregate ink fills per target region, guaranteeing compliance with minimum and maximum ink fills set by specification. In various embodiments, different droplet combinations are produced through different printhead/substrate scan offsets, offsets between printheads, the use of different nozzle drive waveforms, and/or other techniques. These combinations can be based on repeated, rapid droplet measurements that develop understandings for each nozzle of means and spreads for expected droplet volume, velocity and trajectory, with combinations of droplets being planned based on these statistical parameters. Optionally, random fill variation can be introduced so as to mitigate Mura effects in a finished display device. The disclosed techniques have many possible applications.Type: ApplicationFiled: September 27, 2017Publication date: August 15, 2019Inventors: Nahid Harjee, Lucas D. Barkley, Christopher R. Hauf, Eliyahu Vronsky, Conor F. Madigan, Gregory Lewis, Alexander Sou-Kang Ko, Valerie Gassend -
Patent number: 10378526Abstract: A micro-fluidic device. The device includes a semiconductor substrate attached to a fluid supply source. The substrate contains at least one vaporization heater, one or more bubble pumps for feeding fluid from the fluid supply source to the at least one vaporization heater, a fluid supply inlet from the fluid supply source in fluid flow communication with each of the one or more bubble pumps, and a vapor outlet in vapor flow communication with the at least one vaporization heater. The one or more bubble pumps each have a fluid flow path selected from a linear path, a spiral path, a circuitous path, and a combination thereof from the supply inlet to the at least one vaporization heater.Type: GrantFiled: December 21, 2015Date of Patent: August 13, 2019Assignee: FUNAI ELECTRIC CO., LTDInventor: Lucas D. Barkley
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Patent number: 10344747Abstract: A vaporization device, including a fluid supply containing a vaporizable fluid; a plurality of bubble pumps operative to pump fluid from the fluid supply to outlets of the bubble pumps; and a fluid vaporization heater located adjacent the outlets of the bubble pumps to receive fluid from the bubble pumps.Type: GrantFiled: December 21, 2015Date of Patent: July 9, 2019Assignee: Funai Electric Co., Ltd.Inventor: Lucas D. Barkley
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Patent number: 10334879Abstract: A vaporization device, including a fluid supply containing a vaporizable fluid; a bubble pump operative to pump fluid from the fluid supply to an outlet of the bubble pump; and a fluid vaporization heater located adjacent the outlet of the bubble pump to receive fluid from the bubble pump.Type: GrantFiled: December 21, 2015Date of Patent: July 2, 2019Assignee: FUNAI ELECTRIC CO., LTDInventor: Lucas D. Barkley
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Patent number: 10315434Abstract: An imaging apparatus includes a print engine having a printhead that generates ink drops, and a printhead carrier that carries the printhead in a first direction and in a second direction. A controller determines an initial print direction based on ink drop information obtained by printing patches in the first direction and in the second direction. The controller is operatively coupled to the print engine to print an image based on the initial print direction.Type: GrantFiled: January 3, 2017Date of Patent: June 11, 2019Assignee: FUNAI ELECTRIC CO., LTD.Inventors: Lucas D. Barkley, Stephen T. Olson