Patents by Inventor Scott C. Rashleigh
Scott C. Rashleigh 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: 5602952Abstract: A fiber optic component package comprising one or more fiber optic components and an inner housing supporting the components. The components have one or more optical fibers associated therewith which extend from the housing. The fiber optic component package also has a layer that is substantially impervious to moisture including water vapor and which encloses the inner housing. The layer includes a sheet of substantially moisture impervious flexible material wrapped around the inner housing and a substantially moisture pervious sealant adhesive that serves to bond the sheet of flexible material and fills at least those regions at edges of the sheet of flexible material.Type: GrantFiled: June 30, 1994Date of Patent: February 11, 1997Assignee: AOFR Pty. LimitedInventors: Scott C. Rashleigh, Robert Brunswick, Martin C. Elias
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Patent number: 5071214Abstract: An interferometric fibre optic network includes a downlead optical fibre (12) and a pair of uplead optical fibres (14, 16). Sites for a plurality of interferometric sensor pairs (25) are arranged whereby each pair (25) is optically connected in use of the network to the downlead and uplead fibers (12, 14, 16) via a 3.times.3 fibre optic coupler (30) and respective further fibre optic couplers (32) on the uplead fibres (14, 16). The uplead fibres (14, 16) are multimode optical fibres, and each of the 3.times.3 couplers (30) is optically connected to the respective further couplers (32) by a single mode optical fibre (34). The further couplers (32) are asymmetric couplers having high tap-on coupling from the single mode optical fibre (34) to the respective uplead fibre (14, 16) but low tap-off coupling from the uplead fibre (14, 16).Type: GrantFiled: January 10, 1991Date of Patent: December 10, 1991Assignee: The Commonwealth of AustraliaInventors: Peter G. Jacob, Martin C. Elias, Robert A. Griffin, Scott C. Rashleigh
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Patent number: 5062686Abstract: An optical sensor includes elongate light transmission means such as an optical fibre (13). A lens (16) of at least nearly half-pitch length is positioned with one of its focal planes substantially at a mouth (13a) of the optical fibre to receive and focus a diverging cone of light emergent therefrom. A reflector (20) is disposed substantially at another focal plane of the lens to reflect the focused light back to the mouth of the fibre. Detection means (14) in the path of the light between the mouth and the reflector is arranged to influence the light in response to an external condition in a manner whereby the reflected light received back at the fibre mouth may be monitored to detect the influence and thereby the condition. An optical fibre network has an incident fibre (40) and a detection fibre (42) coupled to plural optical components (60) via respective optical fibres (62) associated with the components and one or more optical fibre couplers (64, 68, 69).Type: GrantFiled: September 23, 1988Date of Patent: November 5, 1991Assignee: Commonwealth of AustraliaInventors: Ross Barrow, Martin C. Elias, Peter R. A. Lyons, Peter G. Jacob, Scott C. Rashleigh
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Patent number: 5015058Abstract: An asymmetric multi-mode fibre optic coupler is assembled from two or more multi-mode optical fibres of different core and cladding diameters but substantially equal cladding refractive indices. The fibres are selected so as to have substantially equal effective refractive indices for their respective highest-order cladding modes, at least in the fabricated coupler.Type: GrantFiled: February 2, 1989Date of Patent: May 14, 1991Assignee: The Commonwealth of AustraliaInventors: David A. Thorncraft, Peter R. A. Lyons, Scott C. Rashleigh, Johnathan A. Maine, John D. Love
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Patent number: 5011252Abstract: Apparatus for fabricating a fused biconical taper fibre optic coupler includes a hollow furnace (12) having a longitudinal slot (50). Clamp units (14, 16) are provided to hold at least two suitably prepared optical fibres (8, 9) in intimate side-by-side contact. The clamp units are moveable by motors (18, 20) to relatively laterally move the fibres into and out of the furnace (12) through the slot (50). A power supply (60) heats the furnace (12) to in turn heat segments of the fibres therein while these segments are in intimate side-by-side contact to a temperature sufficient to cause the fibre segments to fuse together. Drawings devices (22, 24) associated with the clamp units (14, 16) longitudinally draw the heated fibres while in the hot furnace to cause each fused fibre to develop a biconical taper and so form a coupler.Type: GrantFiled: September 12, 1988Date of Patent: April 30, 1991Assignee: The Commonwealth of AustraliaInventors: David A. Thorncraft, David R. Kennedy, Scott C. Rashleigh, Timothy P. Dabbs
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Patent number: 4957338Abstract: A method of fabricating a fused fibre optic coupler includes disposing two or more segments of optical fibre under longitudinal tension. The tensioned fibre segments are preheated to a temperature sufficient to soften the segments and thereby substantially relieve their tension by inelastic stretching of the segments. After the segments have cooled, the fibre segments are re-tensioned and then heated while in intimate side-by-side contact to a temperature sufficient to cause the fibre segments to fuse together.Type: GrantFiled: September 12, 1988Date of Patent: September 18, 1990Assignee: The Commonwealth of AustraliaInventors: David A. Thorncraft, David R. Kennedy, Scott C. Rashleigh, Timothy P. Dabbs
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Patent number: 4666255Abstract: An acousto-optic frequency shifter in which two cylindrical acoustic resonators driven 90.degree. out of phase from one another are placed around a birefringent, single-mode optical fiber approximately three-quarters of a polarization beat length apart. The resonators interact with optical radiation propagating in one of two polarization modes of the fiber, the first to cross-couple two sidebands into the other polarization mode, and the second to suppress one of the sidebands in the cross-coupled mode and enhance the other, thereby creating a single sideband signal completely within the fiber.Type: GrantFiled: June 12, 1986Date of Patent: May 19, 1987Assignee: Sachs/Freeman Associates, Inc.Inventors: Henry F. Taylor, Scott C. Rashleigh, Joseph F. Weller, Kiyoshi Nosu
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Patent number: 4539519Abstract: In order to measure the intensity of an electric current utilizing the Faay effect, an optical path which is exposed to a magnetic field generated by the current is marked by an optical fiber which is laid in a number of windings in the shape of a coil. In order to minimize the disruptive effect of, for instance, elliptical eigen-birefringence of the fiber, or birefringence caused by the laying of the fiber on the zero point and the calibration factor of the device, the end of the optical fiber which is away from the input point is provided with a reflection unit which reflects back into the fiber the light which arrives there with the same polarization state with which it arrived at the reflection unit. A polarization measurement unit is used to record the polarization state of light flux which, after having traversed the optical fiber a total of twice, again emerges at the input point.Type: GrantFiled: April 23, 1982Date of Patent: September 3, 1985Assignee: Max-Planck-Gesellschaft zur Forderung der Wissenschaften e.V.Inventors: Reinhard Ulrich, Scott C. Rashleigh
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Patent number: 4536088Abstract: A polarimetric Fabry-Perot sensor comprising a source of coherent polarized light, an optical cavity, preferably an optical fiber, capable of supporting two independent modes of that light and coated with partially reflecting material on both ends, a sensing element for detecting the external field that differentially affects the two modes, and means for measuring interference between the two modes.Type: GrantFiled: September 17, 1982Date of Patent: August 20, 1985Inventors: Scott C. Rashleigh, Samuel J. Petuchowski
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Patent number: 4495411Abstract: A fiber optic sensor for detecting and/or measuring a physical quantity varying at any frequency from a maximum desired frequency down to zero frequency with minimum disturbance from environmentally induced perturbations. A first highly birefringent optical fiber is positioned longitudinally adjacent to a second equally birefringent fiber. Each fiber has orthogonally disposed fast and slow axes. The fibers are oriented such that their fast axes are perpendicular to each other. When subjected to stress caused by a physical quantity acting on the fibers through a transducer, the birefringence of each of the two fibers is asymmetrical altered thereby rotating the states of polarization of coherent light signals passing through the two fibers in a common direction. Environmental perturbations symmetrically alter the birefringence of each of the fibers thereby rotating the states of polarization of the light signals in opposite directions.Type: GrantFiled: October 27, 1982Date of Patent: January 22, 1985Assignee: The United States of America as represented by the Secretary of the NavyInventor: Scott C. Rashleigh
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Patent number: 4491413Abstract: A Sagnac rotation sensing interferometer that uses a Mach-Zehnder interferometer to provide incident light beams that counter-propagate through an optical-fiber loop. The Sagnac interferometer operates at maximum sensitivity for zero rotation rates when the Mach-Zehnder is adjusted so that the intensities of the incident light beams are equal. By peiodically varying the position of a mirror in the Mach-Zehnder the interferometer is switched into and out of quadrature so that the amplitude of the interferometer output signal is modulated at frequency f.sub.o. Phase sensitive detection at 2f.sub.o or multiples thereof reduces the background noise level several orders of magnitude below the level for dc operation.Type: GrantFiled: April 22, 1982Date of Patent: January 1, 1985Assignee: The United States of America as represented by the Secretary of the NavyInventor: Scott C. Rashleigh
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Patent number: 4442350Abstract: A sensor is provided for sensing or detecting the presence of an environmental field condition such as acceleration, temperature change, magnetic or acoustic fields. The field is sensed by interference between two mutually orthogonal polarized eigenmodes in a single monomode optical fiber which may be disposed either linearly or wound on a mandrel made of compliant material for sensing an acoustic field, or made of magnetostrictive material for sensing a magnetic field. Polarized light propagated through the optical fiber is detected at its outlet independent of environmentally induced low frequency variations whereby the sensor may be maintained at quadrature and maximum sensitivity.Type: GrantFiled: August 17, 1981Date of Patent: April 10, 1984Assignee: The United States of America as represented by the Secretary of the NavyInventor: Scott C. Rashleigh
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Patent number: 4420258Abstract: A fiber-optic gyroscope designed to operate at maximum sensitivity by suping two equal-intensity input beams with a specific phase difference to the gyroscope optical coupler. When the coupler outputs into the gyroscope optical fiber coil are of equal intensity, reciprocity requires the gyroscope to operate at quadrature. This device is realized by splitting a laser beam into two paths with a phase shifter in one of the paths to control the phase shift and thereby the intensity of the beams, and coupling the light from these paths into a fiber optic coil via a four-port 3dB coupler.Type: GrantFiled: October 23, 1981Date of Patent: December 13, 1983Assignee: The United States of America as represented by the Secretary of the NavyInventors: William K. Burns, Scott C. Rashleigh
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Patent number: 4255018Abstract: A fibre optical arrangement for measuring the intensity of an electric current using the Faraday effect, in which the path of light whose state of polarization is influenced by the magnetic field surrounding the conductor through which current flows is marked by the core of an optical fibre which is coiled round the conductor in a number of turns, the optical fibre used in the arrangement being one which has a circular double refraction .alpha. at least of the order of magnitude of a linear double refraction .beta. determined by the structure of the fibre and its coiled arrangement. The fibre is preferably twisted about its longitudinal axis so that the twist is substantially evenly distributed over the length of the optical fibre.Type: GrantFiled: August 13, 1979Date of Patent: March 10, 1981Assignee: Max-Planck-Gesellschaft zur Forderung der Wissenschaften e.V.Inventors: Reinhard Ulrich, Scott C. Rashleigh
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Patent number: RE37692Abstract: A fiber optic component package comprising one or more fiber optic components and an inner housing supporting the components. The components have one or more optical fibers associated therewith which extend from the housing. The fiber optic component package also has a layer that is substantially impervious to moisture including water vapor and which encloses the inner housing. The layer includes a sheet of substantially moisture impervious flexible material wrapped around the inner housing and a substantially moisture pervious sealant adhesive that serves to bond the sheet of flexible material and fills at least those regions at edges of the sheet of flexible material.Type: GrantFiled: February 2, 1999Date of Patent: May 7, 2002Assignee: AOFR Pty. LimitedInventors: Scott C. Rashleigh, Robert Brunswick, Martin C. Elias