Patents by Inventor Scott Bourne
Scott Bourne 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: 20230277829Abstract: An applicator for a microprojection array is described. In one embodiment, the applicator comprises an energy-storing element. Application of force causes the compressed energy-storing element to extend or transition from first and second configurations, releasing stored energy to deploy a holding member in the application which is configured to hold an array of microprojections. In another embodiment, the applicator comprises an energy storing element with two stable configurations, a first stable configuration and second stable configuration. Application of force causes the energy-storing element to transition from the higher energy first stable configuration to the lower energy second stable configuration, releasing the difference in energies of the two states to deploy a holding member in the application which is configured to hold an array of microprojections.Type: ApplicationFiled: May 16, 2023Publication date: September 7, 2023Inventors: Joseph C. Trautman, Douglas Joseph Scott Bourne, Anthony Le, Robert Wade Worsham, Parminder Singh
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Patent number: 11666740Abstract: An applicator for a microprojection array is described. In one embodiment, the applicator comprises an energy-storing element. Application of force causes the compressed energy-storing element to extend or transition from first and second configurations, releasing stored energy to deploy a holding member in the application which is configured to hold an array of microprojections. In another embodiment, the applicator comprises an energy storing element with two stable configurations, a first stable configuration and second stable configuration. Application of force causes the energy-storing element to transition from the higher energy first stable configuration to the lower energy second stable configuration, releasing the difference in energies of the two states to deploy a holding member in the application which is configured to hold an array of microprojections.Type: GrantFiled: February 25, 2021Date of Patent: June 6, 2023Assignee: Corium Pharma Solutions, Inc.Inventors: Joseph C. Trautman, Douglas Joseph Scott Bourne, Anthony Le, Robert Wade Worsham, Parminder Singh
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Publication number: 20220183545Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: ApplicationFiled: December 22, 2021Publication date: June 16, 2022Inventors: Brian Y. TACHIBANA, Charles W. McNALL, Michael ZUNG, Peter Howard SMITH, Brian CHIU, Douglas Joseph Scott BOURNE, Priyanshu GUPTA
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Patent number: 11206975Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: GrantFiled: April 1, 2019Date of Patent: December 28, 2021Assignee: Avinger, Inc.Inventors: Brian Y. Tachibana, Charles W. McNall, Michael Zung, Peter Howard Smith, Brian Chiu, Douglas Joseph Scott Bourne, Priyanshu Gupta
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Publication number: 20210187263Abstract: An applicator for a microprojection array is described. In one embodiment, the applicator comprises an energy-storing element. Application of force causes the compressed energy-storing element to extend or transition from first and second configurations, releasing stored energy to deploy a holding member in the application which is configured to hold an array of microprojections. In another embodiment, the applicator comprises an energy storing element with two stable configurations, a first stable configuration and second stable configuration. Application of force causes the energy-storing element to transition from the higher energy first stable configuration to the lower energy second stable configuration, releasing the difference in energies of the two states to deploy a holding member in the application which is configured to hold an array of microprojections.Type: ApplicationFiled: February 25, 2021Publication date: June 24, 2021Inventors: Joseph C. Trautman, Douglas Joseph Scott Bourne, Anthony Le, Robert Wade Worsham, Parminder Singh
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Patent number: 10946180Abstract: An applicator for a microprojection array is described. In one embodiment, the applicator comprises an energy-storing element. Application of force causes the compressed energy-storing element to extend or transition from first and second configurations, releasing stored energy to deploy a holding member in the application which is configured to hold an array of microprojections. In another embodiment, the applicator comprises an energy storing element with two stable configurations, a first stable configuration and second stable configuration. Application of force causes the energy-storing element to transition from the higher energy first stable configuration to the lower energy second stable configuration, releasing the difference in energies of the two states to deploy a holding member in the application which is configured to hold an array of microprojections.Type: GrantFiled: June 26, 2017Date of Patent: March 16, 2021Assignee: Corium, Inc.Inventors: Joseph C. Trautman, Douglas Joseph Scott Bourne, Anthony Le, Robert Wade Worsham, Parminder Singh
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Publication number: 20200029801Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: ApplicationFiled: April 1, 2019Publication date: January 30, 2020Inventors: Brian Y. TACHIBANA, Charles W. McNALL, Michael ZUNG, Peter Howard SMITH, Brian CHIU, Douglas Joseph Scott BOURNE, Priyanshu GUPTA
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Patent number: 10244934Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: GrantFiled: May 23, 2016Date of Patent: April 2, 2019Assignee: Avinger, Inc.Inventors: Brian Y. Tachibana, Charles W. McNall, Michael Zung, Peter Howard Smith, Brian Chiu, Douglas Joseph Scott Bourne, Priyanshu Gupta
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Publication number: 20180347820Abstract: An electric fireplace that is configured to look more realistic, i.e. more like a traditional wood-burning fireplace, includes a grate and an emberbed. The grate has a substantially horizontally-oriented middle section. The emberbed is positioned substantially directly below the middle section of the grate. Additionally, the emberbed is positioned spaced apart from the grate by a bed gap. The bed gap can be between approximately one-half inch and four inches. Additionally, the emberbed can be selectively coupled to the grate.Type: ApplicationFiled: May 29, 2018Publication date: December 6, 2018Inventors: William Scott Bourne, Jonathan Edward Prentice
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Publication number: 20180207417Abstract: A self-aligning system for coupling a catheter to a rotational drive assembly includes a catheter and a drive assembly. The catheter includes an elongate catheter body, a rotatable driveshaft extending within the elongate catheter body, a connector at a proximal end of the elongate catheter body, and a keyed feature extending from an outer diameter of the connector. The drive assembly includes a motor configured to rotate the driveshaft, a receiving tube with a distal opening configured to receive the connector, and a channel on an inner surface of the receiving tube, the channel including two opposing curved walls that are angled towards a substantially straight section. The keyed feature is configured to slide against one of the opposing curved walls and into the substantially straight section to rotationally align the proximal end of the catheter with the drive assembly.Type: ApplicationFiled: July 6, 2016Publication date: July 26, 2018Inventors: Michael ZUNG, Douglas Joseph Scott BOURNE
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Publication number: 20170361079Abstract: An applicator for a microprojection array is described. In one embodiment, the applicator comprises an energy-storing element. Application of force causes the compressed energy-storing element to extend or transition from first and second configurations, releasing stored energy to deploy a holding member in the application which is configured to hold an array of microprojections. In another embodiment, the applicator comprises an energy storing element with two stable configurations, a first stable configuration and second stable configuration. Application of force causes the energy-storing element to transition from the higher energy first stable configuration to the lower energy second stable configuration, releasing the difference in energies of the two states to deploy a holding member in the application which is configured to hold an array of microprojections.Type: ApplicationFiled: June 26, 2017Publication date: December 21, 2017Inventors: Joseph C. Trautman, Douglas Joseph Scott Bourne, Anthony Le, Robert Wade Worsham, Parminder Singh
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Publication number: 20170211814Abstract: An electric fireplace assembly (10) that is selectively movable between an open configuration and a closed configuration includes an assembly housing (12); and an electric fireplace (14) that is positioned substantially within the assembly housing (12). The electric fireplace (14) includes (i) a fireplace housing (24) having a first side (24A) that is spaced apart from the assembly housing (12) to define a first assembly cavity (42A); (ii) a simulated log (30) that is positioned within the fireplace housing (24); and (iii) a first fireplace door (16A) that is coupled to the fireplace housing (24). The first fireplace door (16A) is positioned substantially directly in front of the simulated log (30) to obscure a view of the simulated log (30) when the electric fireplace assembly (10) is in the closed configuration. Additionally, the first fireplace door (16A) is positioned within the first assembly cavity (42A) when the electric fireplace assembly (10) is in the open configuration.Type: ApplicationFiled: January 26, 2017Publication date: July 27, 2017Inventors: William Scott Bourne, Jonathan Edward Prentice
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Patent number: 9687640Abstract: An applicator for a microprojection array is described. In one embodiment, the applicator comprises an energy-storing element. Application of force causes the compressed energy-storing element to extend or transition from first and second configurations, releasing stored energy to deploy a holding member in the application which is configured to hold an array of microprojections. In another embodiment, the applicator comprises an energy storing element with two stable configurations, a first stable configuration and second stable configuration. Application of force causes the energy-storing element to transition from the higher energy first stable configuration to the lower energy second stable configuration, releasing the difference in energies of the two states to deploy a holding member in the application which is configured to hold an array of microprojections.Type: GrantFiled: May 4, 2011Date of Patent: June 27, 2017Assignee: Corium International, Inc.Inventors: Joseph C. Trautman, Douglas Joseph Scott Bourne, Anthony Le, Robert Wade Worsham, Parminder Singh
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Publication number: 20160338582Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: ApplicationFiled: May 23, 2016Publication date: November 24, 2016Inventors: Brian Y. TACHIBANA, Charles W. McNALL, Michael ZUNG, Peter Howard SMITH, Brian CHIU, Douglas Joseph Scott BOURNE, Priyanshu GUPTA
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Patent number: 9345398Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: GrantFiled: March 15, 2013Date of Patent: May 24, 2016Assignee: Avinger, Inc.Inventors: Brian Y. Tachibana, Charles W. McNall, Michael Zung, Peter Howard Smith, Brian Chiu, Douglas Joseph Scott Bourne, Priyanshu Gupta
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Patent number: 9033549Abstract: A surface mount light (10) comprises a base assembly (12) and a first diffuser (14). The base assembly (12) includes (i) a housing body (25) having a base (16) and a side (18) that is coupled to the base (16), the base (16) being mountable on a surface (15); (ii) a light assembly (22) positioned substantially within the housing body (25), the light assembly (22) including one or more LED lights (34), wherein power is selectively provided to the light assembly (22) such that at least one of the one or more LED lights (34) directs light away from the base (16); and (iii) a first attachment member (40). The first diffuser (14) includes a second attachment member (42) that selectively engages the first attachment member (40) to selectively attach the first diffuser (14) to the base assembly (12) without damaging the base assembly (12) and the first diffuser (14).Type: GrantFiled: September 7, 2012Date of Patent: May 19, 2015Assignee: BELLALUZ LIGHTING, INC.Inventors: Jonathan Nussbaum, William Scott Bourne
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Publication number: 20150126856Abstract: A drive assembly for driving an imaging catheter has a rotatable fiber and a rotatable drive shaft. The drive assembly includes a fiber optic rotating junction and a motor configured to rotate the rotatable portion of the fiber optic rotating junction. In some embodiments, the drive assembly includes a sensor configured to detect a rotational position of the fiber optic rotating junction and a processor configured to obtain the detected rotational position and stop the motor only when the fiber optic rotating junction is in a predetermined rotational position. In some embodiments, the motor includes a hollow shaft through which at least a portion of the fiber optic rotating junction extends.Type: ApplicationFiled: March 15, 2013Publication date: May 7, 2015Inventors: Brian Y. Tachibana, Charles W. McNall, Michael Zung, Peter Howard Smith, Brian Chiu, Douglas Joseph Scott Bourne, Priyanshu Gupta
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Patent number: 8876335Abstract: A modular lighting system for lighting a work area is disclosed. The system includes a power supply with power outlets for powering LED fixtures. The power supply preferably operates at or below a fixed power output level, such as to illuminate the work area using less than 0.2 Watts per square foot of energy. The lighting system also includes an occupancy sensor and/or a light level sensor for controlling lighting levels in the work area in response to detection of a person, ambient light levels and/or a combination thereof. The lighting system can also include computer unit with a micro-processor and a memory unit for running software or firmware the executes lighting programs, stores light usage histories and/or provides system reports to a remote computer by a wireless means and/or over a computer network.Type: GrantFiled: April 30, 2014Date of Patent: November 4, 2014Assignees: Finelite Inc, The Regents of the University of CaliforniaInventors: Walter Blue Clark, Douglas Joseph Scott Bourne, Erik R. Page, Michael Siminovitch, Kevin Gauna, Konstantinos Papamichael
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Publication number: 20140232267Abstract: A modular lighting system for lighting a work area is disclosed. The system includes a power supply with power outlets for powering LED fixtures. The power supply preferably operates at or below a fixed power output level, such as to illuminate the work area using less than 0.2 Watts per square foot of energy. The lighting system also includes an occupancy sensor and/or a light level sensor for controlling lighting levels in the work area in response to detection of a person, ambient light levels and/or a combination thereof. The lighting system can also include computer unit with a micro-processor and a memory unit for running software or firmware the executes lighting programs, stores light usage histories and/or provides system reports to a remote computer by a wireless means and/or over a computer network.Type: ApplicationFiled: April 30, 2014Publication date: August 21, 2014Applicants: Finelite INC., University of California, David, The Regents of the University of CaliforniaInventors: Walter Blue Clark, Douglas Joseph Scott Bourne, Erik R. Page, Michael Siminovitch, Kevin Gauna, Konstantinos Papamichael
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Publication number: 20130063932Abstract: A surface mount light (10) comprises a base assembly (12) and a first diffuser (14). The base assembly (12) includes (i) a housing body (25) having a base (16) and a side (18) that is coupled to the base (16), the base (16) being mountable on a surface (15); (ii) a light assembly (22) positioned substantially within the housing body (25), the light assembly (22) including one or more LED lights (34), wherein power is selectively provided to the light assembly (22) such that at least one of the one or more LED lights (34) directs light away from the base (16); and (iii) a first attachment member (40). The first diffuser (14) includes a second attachment member (42) that selectively engages the first attachment member (40) to selectively attach the first diffuser (14) to the base assembly (12) without damaging the base assembly (12) and the first diffuser (14).Type: ApplicationFiled: September 7, 2012Publication date: March 14, 2013Inventors: Jonathan Nussbaum, William Scott Bourne