Patents by Inventor James M. Sullivan
James M. Sullivan 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: 6813013Abstract: A pressure-isolated Bragg grating temperature sensor includes an optical element, which includes an optical fiber having at least one Bragg grating disposed therein. The Bragg grating is encased within and fused to at least a portion of an inner glass capillary tube, or comprises a large diameter waveguide grating having a core and a wide cladding and having the grating disposed therein, encased within an outer tube to form a chamber. An extended portion of the sensing element that has the grating therein extends inwardly into the chamber, which allows the grating to sense temperature changes but isolates the grating from external pressure. More than one grating or pair of gratings may be used and more than one fiber or optical core may be used. At least a portion of the sensing element may be doped between a pair of gratings to form a temperature tuned laser, or the grating or gratings may be configured as a tunable DFB laser disposed in the sensing element.Type: GrantFiled: July 12, 2002Date of Patent: November 2, 2004Assignee: Weatherford/Lamb, Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Richard T. Jones, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Patent number: 6781054Abstract: A removable tube within each junction box interconnecting conduit pipes thereby providing a travel-smooth path for fish tapes through a junction box. Each guide tube has a ring near each end providing an insertion limit into a conduit. Each tube has a perforated score line along its length for easy removal after wire installation.Type: GrantFiled: September 5, 2003Date of Patent: August 24, 2004Inventors: Francis M. Sullivan, James M. Sullivan
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Patent number: 6776045Abstract: A fiber grating pressure sensor for use in an industrial process includes an optical sensing element 20,600 which includes an optical fiber 10 having a Bragg grating 12 impressed therein which is encased within and fused to at least a portion of a glass capillary tube 20 and/or a large diameter waveguide grating 600 having a core and a wide cladding and which has an outer transverse dimension of at least 0.3 mm. Light 14 is incident on the grating 12 and light 16 is reflected from the grating 12 at a reflection wavelength &lgr;1. The sensing element 20,600 may be used by itself as a sensor or located within a housing 48,60,90,270,300. When external pressure P increases, the grating 12 is compressed and the reflection wavelength &lgr;1 changes. The shape of the sensing element 20,600 may have other geometries, e.g., a “dogbone” shape, so as to enhance the sensitivity of shift in &lgr;1 due to applied external pressure and may be fused to an outer shell 50.Type: GrantFiled: November 8, 2001Date of Patent: August 17, 2004Assignee: CiDRA CorporationInventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Michael A. Davis, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Publication number: 20040129083Abstract: A fiber grating pressure sensor includes an optical sensing element which includes an optical fiber having a Bragg grating impressed therein which is encased within and fused to at least a portion of a glass capillary tube and/or a large diameter waveguide grating having a core and a wide cladding. Light is incident on the grating and light is reflected from the grating at a reflection wavelength &lgr;1. The sensing element may be used by itself as a sensor or located within a housing. When external pressure P increases, the grating is compressed and the reflection wavelength &lgr;1 changes. The shape of the sensing element may have other geometries, e.g., a “dogbone” shape, so as to enhance the sensitivity of shift in &lgr;1 due to applied external pressure and may be fused to an outer shell.Type: ApplicationFiled: August 22, 2003Publication date: July 8, 2004Applicant: Weatherford/Lamb, Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Michael A. Davis, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Saunders
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Publication number: 20040042726Abstract: A tunable optical filter has a large diameter cane waveguide with “side-holes” in the cane cross-section that reduce the force required to compress the large diameter optical waveguide without overly compromising the buckling strength thereof. The large diameter optical waveguide has a cross-section of at least about 0.3 millimeters, including at least one inner core, a Bragg grating arranged therein, a cladding surrounding the inner core, and a structural configuration for providing a reduced bulk modulus of compressibility and maintaining the anti-buckling strength of the large diameter optical waveguide. The structural configuration reduces the cross-sectional area of the large diameter optical waveguide. These side holes reduce the amount of glass that needs to be compressed, but retains the large diameter.Type: ApplicationFiled: June 2, 2003Publication date: March 4, 2004Applicant: CiDRA CorporationInventors: Alan D. Kersey, Mark R. Fernald, Timothy J. Bailey, Michael A. Davis, Thomas W. Engel, Robert N. Brucato, Richard T. Jones, Trevor W. MacDougall, Matthew B. Miller, Paul E. Sanders, James S. Sirkis, James M. Sullivan, Martin A. Putnam
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Patent number: 6668656Abstract: A fiber Bragg grating based sensor is disclosed. The sensor comprises an optical waveguide having a core and a cladding. The core comprises a pressure sensor such as a fiber Bragg grating. In one embodiment, a support is affixed around the cladding which has two first portions each having a first diameter. The pressure sensor is located at a second portion of the support positioned between the two first portions which has a second smaller diameter, thus giving the sensor a “dog bone” shape. In another embodiment, the dog bone shape is imparted by positioning the pressure sensor at a portion of a waveguide having a reduced cladding diameter.Type: GrantFiled: July 9, 2002Date of Patent: December 30, 2003Assignee: Weatherford/Lamb, Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Michael A. Davis, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Patent number: 6621957Abstract: A temperature compensated optical device includes a compression-tuned glass element 10 having a Bragg grating 12 therein, a compensating material spacer 26 and an end cap 28 all held within an outer shell 30. The element 10, end cap 28 and shell 30 are made of a material having a low coefficient of thermal expansion (CTE), e.g., silica, quartz, etc. and the spacer 26 is made of a material having a higher CTE, e.g., metal, Pyrex®, ceramic, etc. The material and length L5 of the spacer 26 is selected to offset the upward grating wavelength shift due to temperature. As temperature rises, the spacer 26 expands faster than the silica structure causing a compressive strain to be exerted on the element 10, which shifts the wavelength of the grating 12 down to balance the intrinsic temperature induces wavelength shift up. As a result, the grating 12 wavelength is substantially unchanged over a wide temperature range.Type: GrantFiled: October 30, 2000Date of Patent: September 16, 2003Assignee: CiDRA CorporationInventors: James M. Sullivan, Timothy J. Bailey, Robert N. Brucato, Thomas W. Engel, Mark R. Fernald, Richard T. Jones, Alan D. Kersey, Trevor MacDougall, Matthew B. Miller, Martin A. Putnam, Paul E. Sanders, James S. Sirkis
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Patent number: 6597711Abstract: A compression-tuned Bragg grating-based laser 800 includes a pair of optical grating elements 802,804 wherein at least one of the grating elements is tunable by a compression device 812,814. The grating elements may include either an optical fiber 10 having at least one Bragg grating 12 impressed therein encased within and fused to at least a portion of a glass capillary tube 20 or a large diameter waveguide grating element 600 having a core and a wide cladding. The tunable grating element(s) 802,804 are axially compressed, which causes a shift in the reflection wavelength of the gratings 807,809 without buckling the element. The shape of the element may be other geometries (e.g., a “dogbone” shape) and/or more than one grating or pair of gratings may be used and more than one fiber 10 or core 612 may be used. A gain element, such as Erbium doped fiber, is optical disposed between the grating elements to provide the lasing cavity.Type: GrantFiled: May 16, 2002Date of Patent: July 22, 2003Assignee: CiDRA CorporationInventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Michael A. Davis, Robert N. Brucato, Martin A. Putnam, Alan D. Kersey, Paul E. Sanders, Jon T. Kringlebotn
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Patent number: 6594081Abstract: An actuator mechanism for a tunable optical filter unit that filters a selected wavelength band of the input light from a DWDM input light. The input light comprises a plurality of wavelength bands or optical channels of light, each of which are centered at a respective channel wavelength. The actuator mechanism exerts a substantially linear force to strain or stress a tunable optical filter element to a desire reflection wavelength(s). A controller, in accordance with a control algorithm, provides a drive signal to the actuator mechanism in response to a command signal and a feedback signal indicative of the center wavelength of the desired optical channel(s) to be filtered. The actuator mechanism includes a drive mechanism that translates linearly a slide in response to the drive signal.Type: GrantFiled: December 29, 2000Date of Patent: July 15, 2003Assignee: CiDRA CorporationInventors: Thomas W. Engel, James M. Sullivan
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Publication number: 20030090823Abstract: An actuator mechanism for a tunable optical filter unit that filters a selected wavelength band of the input light from a DWDM input light. The input light comprises a plurality of wavelength bands or optical channels of light, each of which are centered at a respective channel wavelength. The actuator mechanism exerts a substantially linear force to strain or stress a tunable optical filter element to a desire reflection wavelength(s). A controller, in accordance with a control algorithm, provides a drive signal to the actuator mechanism in response to a command signal and a feedback signal indicative of the center wavelength of the desired optical channel(s) to be filtered. The actuator mechanism includes a drive mechanism that translates linearly a slide in response to the drive signal.Type: ApplicationFiled: December 29, 2000Publication date: May 15, 2003Inventors: Thomas W. Engel, James M. Sullivan
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Patent number: 6519388Abstract: A tube-encased fiber grating includes an optical fiber 10 having at least one Bragg grating 12 impressed therein which is embedded within a glass capillary tube 20. Light 14 is incident on the grating 12 and light 16 is reflected at a reflection wavelength &lgr;1. The shape of the tube 20 may be other geometries (e.g., a “dogbone” shape) and/or more than one concentric tube may be used or more than one grating or pair of gratings may be used. The fiber 10 may be doped at least between a pair of gratings 150,152, encased in the tube 20 to form a tube-encased compression-tuned fiber laser or the grating 12 or gratings 150,152 may be constructed as a tunable DFB fiber laser encased in the tube 20. Also, the tube 20 may have an inner region 22 which is tapered away from the fiber 10 to provide strain relief for the fiber 10, or the tube 20 may have tapered (or fluted) sections 27 which have an outer geometry that decreases down to the fiber 10 and provides added fiber pull strength.Type: GrantFiled: December 6, 1999Date of Patent: February 11, 2003Assignee: CiDRA CorporationInventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Michael A. Davis, Peter Ogle, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Publication number: 20030021306Abstract: A compression-tuned Bragg grating-based laser 800 includes a pair of optical grating elements 802,804 wherein at least one of the grating elements is tunable by a compression device 812,814. The grating elements may include either an optical fiber 10 having at least one Bragg grating 12 impressed therein encased within and fused to at least a portion of a glass capillary tube 20 or a large diameter waveguide grating element 600 having a core and a wide cladding. The tunable grating element(s) 802,804 are axially compressed, which causes a shift in the reflection wavelength of the gratings 807,809 without buckling the element. The shape of the element may be other geometries (e.g., a “dogbone” shape) and/or more than one grating or pair of gratings may be used and more than one fiber 10 or core 612 may be used. A gain element, such as Erbium doped fiber, is optical disposed between the grating elements to provide the lasing cavity.Type: ApplicationFiled: May 16, 2002Publication date: January 30, 2003Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Michael A. Davis, Robert N. Brucato, Martin A. Putnam, Alan D. Kersey, Paul E. Sanders, Jon T. Kringlebotn
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Publication number: 20020194917Abstract: A fiber grating pressure sensor includes an optical sensing element 20,600 which includes an optical fiber 10 having a Bragg grating 12 impressed therein which is encased within and fused to at least a portion of a glass capillary tube 20 and/or a large diameter waveguide grating 600 having a core and a wide cladding and which has an outer transverse dimension of at least 0.3 mm. Light 14 is incident on the grating 12 and light 16 is reflected from the grating 12 at a reflection wavelength &lgr;1. The sensing element 20,600 may be used by itself as a sensor or located within a housing 48,60,90,270,300. When external pressure P increases, the grating 12 is compressed and the reflection wavelength &lgr;1 changes. The shape of the sensing element 20,600 may have other geometries, e.g., a “dogbone” shape, so as to enhance the sensitivity of shift in &lgr;1 due to applied external pressure and may be fused to an outer shell 50.Type: ApplicationFiled: July 9, 2002Publication date: December 26, 2002Applicant: Weatherford/Lamb, Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Michael A. Davis, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Patent number: 6490931Abstract: A fused tension-based fiber grating pressure sensor includes an optical fiber having a Bragg grating impressed therein. The fiber is fused to tubes on opposite sides of the grating and an outer tube is fused to the tubes to form a chamber. The tubes and fiber may be made of glass. Light is incident on the grating and light is reflected from the grating at a reflection wavelength &lgr;1. The grating is initially placed in tension as the pressure P increases, the tension on the grating reduced and the reflection wavelength shifts accordingly. A temperature grating may be used to measure temperature and allow for a temperature-corrected pressure measurement.Type: GrantFiled: September 20, 1999Date of Patent: December 10, 2002Assignee: Weatherford/Lamb, Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Christopher J. Wright, Martin A. Putnam, Robert J. Maron, Richard T. Jones, Guy A. Daigle, John J. Grunbeck, Alan D. Kersey
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Publication number: 20020172446Abstract: A pressure-isolated Bragg grating temperature sensor includes an optical element 20,600 which includes an optical fiber 10 having at least one Bragg grating 12 disposed therein which is encased within and fused to at least a portion of an inner glass capillary tube 20 and/or a large diameter waveguide grating 600 having a core and a wide cladding and having the grating 12 disposed therein, which is encased within an outer tube 40 to form a chamber 44. An extended portion 58 of the sensing element that has the grating 12 therein extends inwardly into the chamber 44 which allows the grating 12 to sense temperature changes but isolates the grating 12 from external pressure. An end tube 42 may be attached to the tube 40 and the fiber 10 fed therethrough to form the chamber 44 and a pass-through for the fiber 10. As the external pressure P increases, the outer tube 40 compresses or deflects, the sensing element 20,600 moves closer to the end tube 42 and/or the outer tube 40 move toward each other.Type: ApplicationFiled: July 12, 2002Publication date: November 21, 2002Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Richard T. Jones, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Publication number: 20020154860Abstract: A fiber grating pressure sensor for use in an industrial process includes an optical sensing element 20,600 which includes an optical fiber 10 having a Bragg grating 12 impressed therein which is encased within and fused to at least a portion of a glass capillary tube 20 and/or a large diameter waveguide grating 600 having a core and a wide cladding and which has an outer transverse dimension of at least 0.3 mm. Light 14 is incident on the grating 12 and light 16 is reflected from the grating 12 at a reflection wavelength &lgr;1. The sensing element 20,600 may be used by itself as a sensor or located within a housing 48,60,90,270,300. When external pressure P increases, the grating 12 is compressed and the reflection wavelength &lgr;1 changes. The shape of the sensing element 20,600 may have other geometries, e.g., a “dogbone” shape, so as to enhance the sensitivity of shift in &lgr;1 due to applied external pressure and may be fused to an outer shell 50.Type: ApplicationFiled: November 8, 2001Publication date: October 24, 2002Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Michael A. Davis, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Patent number: 6452667Abstract: A pressure-isolated Bragg grating temperature sensor includes an optical element which includes an optical fiber having at least one Bragg grating disposed therein. The Bragg grating is encased within and fused to at least a portion of an inner glass capillary tube, or comprises a large diameter waveguide grating having a core and a wide cladding and having the grating disposed therein, encased within an outer tube to form a chamber. An extended portion of the sensing element that has the grating therein extends inwardly into the chamber which allows the grating to sense temperature changes but isolates the grating from external pressure. More than one grating or pair of gratings may be used and more than one fiber or optical core may be used. At least a portion of the sensing element may be doped between a pair of gratings to form a temperature tuned laser, or the grating or gratings may be configured as a tunable DFB laser disposed in the sensing element.Type: GrantFiled: December 6, 1999Date of Patent: September 17, 2002Assignee: Weatherford/Lamb Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Richard T. Jones, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Patent number: 6422084Abstract: A fiber grating pressure sensor includes an optical sensing element 20, 600 which includes an optical fiber 10 having a Bragg grating 12 impressed therein which is encased within and fused to at least a portion of a glass capillary tube 20 and/or a large diameter waveguide grating 600 having a core and a wide cladding and which has an outer transverse dimension of at least 0.3 mm. Light 14 is incident on the grating 12 and light 16 is reflected from the grating 12 at a reflection wavelength &lgr;1. The sensing element 20, 600 may be used by itself as a sensor or located within a housing 48, 60, 90, 270, 300. When external pressure P increases, the grating 12 is compressed and the reflection wavelength &lgr;1 changes. The shape of the sensing element 20, 600 may have other geometries, e.g., a “dogbone” shape, so as to enhance the sensitivity of shift in &lgr;1 due to applied external pressure and may be fused to an outer shell 50.Type: GrantFiled: December 6, 1999Date of Patent: July 23, 2002Assignee: Weatherford/Lamb, Inc.Inventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, James R. Dunphy, Michael A. Davis, Christopher J. Wright, Alan D. Kersey, Martin A. Putnam, Robert N. Brucato, Paul E. Sanders
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Patent number: 6363089Abstract: A compression-tuned bragg grating includes a tunable optical element 20,600 which includes either an optical fiber 10 having at least one Bragg grating 12 impressed therein encased within and fused to at least a portion of a glass capillary tube 20or a large diameter waveguide grating 600 having a core and a wide cladding. Light 14 is incident on the grating 12 and light 16 is reflected at a reflection wavelength &lgr;1. The tunable element 20,600 is axially compressed which causes a shift in the reflection wavelength of the grating 12 without buckling the element. The shape of the element may be other geometries (e.g., a “dogbone” shape) and/or more than one grating or pair of gratings may be used and more than one fiber 10 or core 612 may be used. At least a portion of the element may be doped between a pair of gratings 150,152, to form a compression-tuned laser or the grating 12 or gratings 150,152 may be constructed as a tunable DFB laser.Type: GrantFiled: October 19, 2000Date of Patent: March 26, 2002Assignee: CiDRA CorporationInventors: Mark R. Fernald, Timothy J. Bailey, Matthew B. Miller, James M. Sullivan, Michael A. Davis, Robert N. Brucato, Martin A. Putnam, Alan D. Kersey, Paul E. Sanders
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Publication number: 20010042215Abstract: A computer network includes one or more service computers configured to provide multiple network services via the network, and one or more connection devices that allow multiple network client computers to access the services via the network. The network also includes a single routing computer that serves as a firewall through which all traffic between the network services and the network client computers must pass.Type: ApplicationFiled: July 3, 2001Publication date: November 15, 2001Inventors: James M. Sullivan, James A. Keddie