Patents by Inventor Brooks A. Childers
Brooks A. Childers 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: 20110293232Abstract: A hydrogen-resistant optical fiber particularly well-suitable for downhole applications comprises a relatively thick pure silica core and a depressed-index cladding layer. Interposed between the depressed-index cladding layer and the core is a relatively thin germanium-doped interface. By maintaining a proper relationship between the pure silica core diameter and the thickness of the germanium-doped interface, a majority (preferably, more than 65%) of the propagating signal can be confined within the pure silica core and, therefore, be protected from hydrogen-induced attenuation problems associated with the presence of germanium (as is common in downhole fiber applications). The hydrogen-resistant fiber of the present invention can be formed to include one or more Bragg gratings within the germanium-doped interface, useful for sensing applications.Type: ApplicationFiled: May 25, 2007Publication date: December 1, 2011Inventors: Daniel Scott Homa, Brooks Childers
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Publication number: 20110261361Abstract: An interferometer has its performance enhanced by being suspended in a housing that is optionally evacuated. The frame that supports the interferometer is secured to a cover for the housing with a plurality of studs having mechanical vibration isolators. The frame comprises a support flange with a foam layer beneath the interferometer. An optics tray is disposed above the interferometer and holds the assembly to the support flange. The fibers that are connected to the interferometer enter the side of the housing and the entry is sealed off to allow the interior of the housing to be evacuated.Type: ApplicationFiled: April 26, 2010Publication date: October 27, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: David Dixon, Robert M. Harman, Roger G. Duncan, Alan C. Reynolds, Michael C. Nuckles, Brooks A. Childers
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Patent number: 8025445Abstract: A method for imaging a structure disposed in a borehole penetrating the earth, the method including: selecting a splice housing having a first port configured to seal the housing to a first fiber optic cable and a second port configured to seal the housing to a fiber optic sensor configured to image the structure, wherein the housing includes a sealed interior volume sufficient to contain a splice of optical fibers for protection and to enable a functional bend of at least ninety degrees for at least one spliced optical fiber; disposing a splice between an optical fiber of the first fiber optic cable and an optical fiber of the fiber optic sensor in the splice housing; disposing the splice housing containing the splice in the borehole; attaching the fiber optic sensor to the structure; and disposing the structure in the borehole after the splice housing is disposed in the borehole.Type: GrantFiled: May 29, 2009Date of Patent: September 27, 2011Assignee: Baker Hughes IncorporatedInventors: Frederick Henry Kreisler Rambow, Brad W. Davis, Brooks Childers, Travis Hall, Phillip Edward Abshire
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Publication number: 20110199618Abstract: Systems and methods for providing trigger signals in an optical interrogator, wherein multiple triggers are generated within each period of a varying reference signal, and wherein the triggers are evenly spaced according to the wavenumber of the reference signal. In one embodiment, an optical frequency domain reflectometry system provides a laser beam to a reference interferometer to produce a reference signal. This signal is passed through a 4×4 optical coupler which splits the signal into a first signal and a second signal that is 90 degrees out of phase with the first signal. These signals are converted to electrical signals, and a trigger unit generates triggers at points at which the two electrical signals have zero-crossings, and at which the magnitudes of the signals are equal. The resulting triggers remain evenly spaced within the period of the reference signals, even when the period is changed.Type: ApplicationFiled: February 17, 2010Publication date: August 18, 2011Inventors: Brooks A. Childers, Roger G. Duncan
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Publication number: 20110191031Abstract: An apparatus for estimating at least one parameter includes: a deformable member configured to deform in response to the at least one parameter; a housing surrounding at least a portion of an external surface of the deformable member to define an isolated region around the portion and an isolated surface of the deformable member; and at least one optical fiber sensor disposed on the isolated surface and held in an operable relationship with the isolated surface, the at least one optical fiber sensor configured to generate a signal in response to a deformation of the deformable member.Type: ApplicationFiled: November 30, 2010Publication date: August 4, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: Robert M. Harman, Philippe Legrand, Brooks Childers, Roger Duncan, Alan Reynolds, Sam Dippold
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Publication number: 20110181871Abstract: An apparatus for estimating a parameter, the apparatus includes: an optical fiber; a component in communication with the optical fiber and configured to interact with light at a wavelength related to the parameter; and an optical interrogator in communication with the optical fiber and configured to: illuminate the optical fiber with a series of light inputs, each light input in the series having a substantially constant unique optical wavelength and swept-frequency amplitude modulation; and receive a resulting light signal associated with each light input in the series; wherein the resulting light signals associated with the series of light inputs are used to estimate the parameter.Type: ApplicationFiled: January 28, 2010Publication date: July 28, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: BROOKS A. CHILDERS, ROBERT M. HARMAN, ROGER G. DUNCAN
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Publication number: 20110170116Abstract: An apparatus for estimating a property, the apparatus includes: a hollow core tube having a first opening and a second opening; a first optical waveguide disposed within the first opening; and a second optical waveguide disposed within the second opening and spaced a distance from the first optical waveguide, the distance being related to the property; wherein a portion of at least one of the optical waveguides within the tube is perimetrically isolated from the tube.Type: ApplicationFiled: December 2, 2010Publication date: July 14, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: Daniel S. Homa, Robert M. Harman, Brooks A. Childers, Alexander M. Barry, Brian S. Lucas
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Publication number: 20110172959Abstract: An apparatus for estimating a property includes a hollow core tube and an input light guide disposed at least partially within hollow core tube. The apparatus also includes a second gap disposed within the hollow core tube and separated from the input light guide by an air gap width. The second gap is formed of a first solid material and has a second gap width. The apparatus also includes a third gap disposed at least partially within the hollow core tube and being further from the input light guide than the second gap. The third gap is formed of a second solid material and has a third gap width.Type: ApplicationFiled: May 3, 2010Publication date: July 14, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: Brooks A. Childers, Robert M. Harman, Daniel S. Homa, Lance A. Beckner
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Publication number: 20110135246Abstract: An optical fiber includes: a core including a photosensitive material disposed therein, the core having a first index of refraction; a depressed cladding surrounding the core and having a second index of refraction that is lower than the first index of refraction; and an outer cladding surrounding the depressed cladding and having a third index of refraction that is higher than the depressed cladding.Type: ApplicationFiled: December 9, 2009Publication date: June 9, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: Daniel Homa, Brooks Childers
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Publication number: 20110110620Abstract: An apparatus for estimating a shape, the apparatus including: an optical fiber configured to conform to the shape and having a first core offset from a centerline of the optical fiber, the first core having an optical characteristic configured to change due to a change in shape of the optical fiber wherein a change in the optical characteristic is used to estimate the shape. A method for estimating a shape is also disclosed.Type: ApplicationFiled: November 6, 2009Publication date: May 12, 2011Applicant: Baker Hughes IncorporatedInventors: Brooks A. Childers, Daniel S. Homa
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Publication number: 20110110621Abstract: An apparatus for estimating a parameter at distributed locations, the apparatus including: an optical fiber having: a first series of fiber Bragg gratings (FBGs) and configured to measure the parameter at a portion of the distributed locations; a second series of FBGs and configured to measure the parameter at another portion of the distributed locations; and an optical interrogator configured to illuminate the optical fiber and to receive light signals resulting from the illumination, the light signals including first light signals from the first series of FBGs within a first range of wavelengths, second light signals from the second series of FBGs within a second range of wavelengths, and other light signals within a third range of wavelengths, the ranges of wavelengths being distinct from each other; wherein the first light signals and the second light signals are used to estimate the parameter at the distributed locations.Type: ApplicationFiled: November 10, 2009Publication date: May 12, 2011Applicant: Baker Hughes IncorporatedInventors: Roger G. Duncan, Brooks A. Childers, Robert M. Harman
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Publication number: 20100303403Abstract: An apparatus for determining a property, the apparatus including: an optical fiber having a series of fiber Bragg gratings, each fiber Bragg grating in the series being characterized by a light reflection frequency at which the fiber Bragg grating reflects light; wherein: the light reflection frequency for each fiber Bragg grating is different from the light reflection frequency of each adjacent fiber Bragg grating to minimize resonance of light between at least two of the fiber Bragg gratings in the series; at least two fiber Bragg gratings in the series have light reflection frequencies that overlap; and a change in the light reflection frequency of each fiber Bragg grating in the series is related to the property at the location of the each fiber Bragg grating.Type: ApplicationFiled: May 27, 2009Publication date: December 2, 2010Applicant: BAKER HUGHES INCORPORATEDInventors: Daniel Homa, Brooks Childers
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Publication number: 20100303427Abstract: A method for imaging a structure disposed in a borehole penetrating the earth, the method including: selecting a splice housing having a first port configured to seal the housing to a first fiber optic cable and a second port configured to seal the housing to a fiber optic sensor configured to image the structure, wherein the housing includes a sealed interior volume sufficient to contain a splice of optical fibers for protection and to enable a functional bend of at least ninety degrees for at least one spliced optical fiber; disposing a splice between an optical fiber of the first fiber optic cable and an optical fiber of the fiber optic sensor in the splice housing; disposing the splice housing containing the splice in the borehole; attaching the fiber optic sensor to the structure; and disposing the structure in the borehole after the splice housing is disposed in the borehole.Type: ApplicationFiled: May 29, 2009Publication date: December 2, 2010Applicant: BAKER HUGHES INCORPORATEDInventors: Frederick Henry Kreisler Rambow, Brad W. Davis, Brooks Childers, Travis Hall, Phillip E. Abshire
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Patent number: 7781724Abstract: The present invention is directed toward a fiber optic position and shape sensing device and the method of use. The device comprises an optical fiber means. The optical fiber means comprises either at least two single core optical fibers or a multicore optical fiber having at least two fiber cores. In either case, the fiber cores are spaced apart such that mode coupling between the fiber cores is minimized. An array of fiber Bragg gratings are disposed within each fiber core and a frequency domain reflectometer is positioned in an operable relationship to the optical fiber means. In use, the device is affixed to an object. Strain on the optical fiber is measured and the strain measurements correlated to local bend measurements. Local bend measurements are integrated to determine position and/or shape of the object.Type: GrantFiled: September 26, 2006Date of Patent: August 24, 2010Assignee: Luna Innovations IncorporatedInventors: Brooks A. Childers, Dawn K. Gifford, Roger G. Duncan, Matthew T. Raum, Michael E. Vercellino, Mark E. Froggatt
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Publication number: 20100166358Abstract: A multiple-layer fiber-optic sensor is described with dual Bragg gratings in layers of different materials, so that the known temperature and strain response properties of each material may be utilized to simultaneously correct the sensor output for temperature and strain effects.Type: ApplicationFiled: December 30, 2008Publication date: July 1, 2010Inventors: Daniel Homa, Brooks Childers
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Patent number: 7719690Abstract: An optical inclination sensor is provided having at least one reflective surface and at least two separate optical fibers having ends spaced from a reflective surface. As the reflective surface tilts with respect to a pre-determined reference position the gap lengths between the fiber ends and the reflective surface change and the differences in these gap lengths is used to calculate an angle of inclination with respect to a reference position. The optical inclination sensor can include at least one mass attached to a housing and moveable with respect to the housing as the mass and housing are rotated about one or more axes. Optical strain sensors are disposed a various locations between the mass and housing so that as the mass moves with respect to the housing, each one of the optical strain sensors are placed in compression or tension. The housing can be a generally u-shaped housing having two arms and a base section with the mass disposed within the housing.Type: GrantFiled: October 5, 2007Date of Patent: May 18, 2010Assignee: Baker Hughes IncorporatedInventors: Brooks A. Childers, Clark Davis Boyd, Paul Samuel Zerwekh
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Patent number: 7664347Abstract: A multi-core optical fiber sensor is described, which sensor includes an optical fiber having at least two cores, wherein the cores have collocated measurement portions, for example in-fiber interferometers or Bragg grating portions. In an exemplary embodiment, the fiber is provided with collocated measurement portions during fiberization to eliminate drift factors and to provide temperature corrected parameter measurement capabilities.Type: GrantFiled: June 7, 2006Date of Patent: February 16, 2010Assignee: Baker Hughes IncorporatedInventors: Brooks Childers, John Guarniere, Daniel Homa
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Publication number: 20090051905Abstract: An optical inclination sensor is provided having at least one reflective surface and at least two separate optical fibers having ends spaced from a reflective surface. As the reflective surface tilts with respect to a pre-determined reference position the gap lengths between the fiber ends and the reflective surface change and the differences in these gap lengths is used to calculate an angle of inclination with respect to a reference position. The optical inclination sensor can include at least one mass attached to a housing and moveable with respect to the housing as the mass and housing are rotated about one or more axes. Optical strain sensors are disposed a various locations between the mass and housing so that as the mass moves with respect to the housing, each one of the optical strain sensors are placed in compression or tension. The housing can be a generally u-shaped housing having two arms and a base section with the mass disposed within the housing.Type: ApplicationFiled: October 5, 2007Publication date: February 26, 2009Applicant: Baker Hughes IncorporatedInventors: Brooks A. Childers, Clark Davis Boyd, Norman Wayne Ritchie, Paul Samuel Zerwekh, Stephen E. Hester
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Publication number: 20090007652Abstract: An optical sensing member within the anullus zone of a well is disclosed, which sensing member determines the level of debris in the well. When debris accumulates within the anullus zone, said sensing member returns a signal indicative of the level of such debris within the zone. The optical sensing member may include an optical fiber and/or any known optical sensors configured to determine strain, pressure, shape, force, and/or temperature.Type: ApplicationFiled: July 3, 2007Publication date: January 8, 2009Applicant: BAKER HUGHES INCORPORATEDInventor: Brooks Childers
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Patent number: 7433551Abstract: A fiber optic system including a plurality of optical sensors, each with an identification system is disclosed. The fiber optic system includes a fiber, a demodulator, and at least one coupler, optical sensor and corresponding identification system. The identification system is powered by light shunted from the fiber by the coupler to a modulating device. The modulating device modulates the light and transmits it to a power converting device, which transforms the light energy into electrical energy. The electrical energy powers a high temperature integrated circuit upon which is stored a digital identification of a respective optical sensor. The integrated circuit, upon being powered up, sends a modulated response back up to the surface through the modulating device. Alternatively, a passive identification system is described, wherein identification information for a sensor is encoded onto the optical beam as it passes through reflective devices along the length of the fiber.Type: GrantFiled: September 2, 2004Date of Patent: October 7, 2008Assignee: Baker Hughes IncorporatedInventors: Stephen H. Poland, Clark D. Boyd, Brooks A. Childers