Patents Examined by Ellen E. Kang
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Patent number: 6151432Abstract: Universal optical fiber connectors and their basic plugs, wherein the optical fiber connectors have some common elements for their connector-functions to permit an installation of optical fiber into one of the different type connectors for establishing their connection more easily and to facilitate a tuning operation with positioning key maintaining the same direction between eccentricity of the fiber core and the key. The basic plug has a ferrule, a spring element, and a cylindrical tube. The spring element is positioned between a ferrule and a cylindrical tube, so that it exerts forces toward them in an axial direction. The ferrule has a common dimensional structure for securing an optical fiber and has a shape enabling the connection to any one of various kinds of housing members. Thus, the basic plug connects separate optical fibers together through the housing member.Type: GrantFiled: July 14, 1997Date of Patent: November 21, 2000Assignee: Seiko Instruments Inc.Inventors: Masahiro Nakajima, Hiroyuki Tokita, Junji Taira, Kouji Minami, Tatsuo Koshigoe, Nobuo Suzuki
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Patent number: 6128429Abstract: Disclosed herein is a low phonon energy glass and a fiber made therefrom. e glass includes the following components given in mol percent:______________________________________ germanium 0.1-30 arsenic 0-40 X 0.01-20 Y 40-85 ______________________________________wherein X is selected from the group consisting of gallium, indium and mixtures thereof wherein Y is selected from the group consisting of selenium, and mixtures of selenium and up to 50% of sulfur substituted for selenium and the glass also contains 0.001-2 weight percent of a rare earth, based on the weight of said components. The fiber has a minimum loss of less than 5 dB/m.Type: GrantFiled: August 29, 1997Date of Patent: October 3, 2000Assignee: The United States of America as represented by the Secretary of the NavyInventors: Brian Cole, Jasbinder Sanghera, Brandon Shaw, Barry Harbison, Ishwar D. Aggarwal
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Patent number: 6115523Abstract: The subject invention pertains to a system for imaging the human airway having highly advantageous optical and physical characteristics. In a specific embodiment, the human airway can be imaged during the intubation procedure. The excellent characteristics of the imaging system of the subject invention result, in part, from the use of plastic optic fibers. Plastic fibers are more robust than the glass optical fibers used in currently available imaging systems, and are therefore capable of being bent and/or twisted with less concern of breakage. In addition, the lower costs of plastic fibers enables scopes of the subject invention, in a specific embodiment, to be manufactured for single patient use thereby eliminating the requirement for cleaning, special care, the maintenance of expensive inventory, and most importantly eliminating the opportunity for cross contamination between patients.Type: GrantFiled: October 4, 1996Date of Patent: September 5, 2000Assignee: University of FloridaInventors: Won Young Choi, Dietrich Gravenstein, Samsun Lampotang, Richard Melker, James K. Walker
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Patent number: 6088501Abstract: An apparatus for protecting optical fiber devices having at least one optical fiber length and control means associated therewith, includes a casing having at least one housing passing through the casing, in which casing the optical fiber length is inserted in such a manner that it is located inside the casing itself, in the presence of sealing means interposed between the housing and the casing, so that the housing is delimited in a substantially impervious manner with respect to the casing.Type: GrantFiled: February 28, 1997Date of Patent: July 11, 2000Assignee: Pirelli Cavi S.p.A.Inventor: Giovanni Delrosso
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Patent number: 6069988Abstract: An optical fiber which comprises a coating layer disposed outside a bare optical fiber having a core and a cladding and a grating formed in the core of the exposed bare optical fiber by removing the coating layer and its manufacturing method. The optical fiber is provided with a re-coating layer disposed in the exposed bare optical fiber.Type: GrantFiled: June 27, 1997Date of Patent: May 30, 2000Assignee: The Furukawa Electric Co., Ltd.Inventors: Kunio Kokura, Koichi Furukawa, Ikuo Ota, Kazunori Watanabe, Shigehito Yodo, Luksun Li
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Patent number: 6049649Abstract: A surface light source device of side-light type enables concentrated output of illumination light to a frontal direction. A flux having clear directivity is outputted from window portions 1w on an emitting surface 5 of a light guide plate 1 with emitting directivity. This flux is represented by a beam C01 outputted in a direction at an angle of 70.degree.. A flux C02 incident on reflection portions 1r is returned to the light guide plate 1 and is given an opportunity of output from the window portions 1w again. The flux C01 having escaped from the window portions 1w to an air layer AR is obliquely incident on flat regions 14g of a propagation direction characteristics modifier 14, and a degree of parallelization of the flux in a propagation direction is improved. The flux is blocked by the reflection portions 1r from being incident on a notch portion (uneffective area) between the flat regions 14g.Type: GrantFiled: March 25, 1997Date of Patent: April 11, 2000Assignees: Enplas Corporation, Yasuhiro KoikeInventor: Takayuki Arai
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Patent number: 6035082Abstract: A process for preparing an optical fiber having at least one long period grating with enhanced sensitivity is provided. A length of optical fiber having a refractive index profile is provided. The optical fiber supports a core mode and cladding modes for a range of operational wavelengths. Group indices are identified for the core mode and the cladding modes for a specific wavelength wherein the group indices are equal to each other. A long period grating is written in the optical fiber. The long period grating has a grating defined by the group indices and it couples light from the core mode to a cladding mode proximate to where the group indices are equal. The optical fibers prepared by the present invention may be used for measuring an environmental perturbation where high sensitivity is required.Type: GrantFiled: March 16, 1998Date of Patent: March 7, 2000Assignee: Luna Innovations, Inc.Inventors: Kent A. Murphy, Mark E. Jones
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Patent number: 6027253Abstract: An optical fiber array including a V-groove substrate having a V-groove on which an optical fiber is arranged and a fiber fix substrate for fixing the optical fiber arranged on the V-grooves. In the optical fiber array according to the invention, one of the V-groove substrate and the fiber fix substrate has a concave portion into which the other substrate is arranged in such a manner that a bottom surface of the concave portion of the one substrate is connected to a bottom surface of the other substrate directly or via the optical fiber, and the concave portion has side end walls whose thickness is thicker than that of a bottom portion in which the V-grooves are formed. Moreover, side inner surfaces of the concave portion of the one substrate and side surfaces of the other substrate have a taper shape extending gradually wider toward an opening of the concave portion.Type: GrantFiled: August 20, 1996Date of Patent: February 22, 2000Assignee: NGK Insulators, Ltd.Inventors: Takashi Ota, Masashi Fukuyama, Hironori Kurimoto
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Patent number: 6022149Abstract: A fiber optic adaptor is provided which facilitates the connection of either an ST terminated fiber or an FC terminated fiber to another FC terminated fiber, or to some other optical device. The adaptor has a pair of pins mounted on supports connected to an FC coupling receptacle. The pins have extended and retracted positions. When extended, the pins engage the J-shaped slots of the ST terminated fiber, and when retracted, they are out of the way allowing the FC terminated fiber to be connected to the receptacle. In another embodiment, an adaptor is provided which facilitates the connection of either an ST terminated fiber or an SC terminated fiber to another SC terminated fiber.Type: GrantFiled: February 5, 1998Date of Patent: February 8, 2000Inventors: Vincent So, Jonathan So
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Patent number: 6023549Abstract: A dead end connector comprising an elongated base with a channel extending along the length thereof, a cover with a second channel, and bolts for securing the two units together so that the channels form a bore through which a fiber optic cable is received, where each of the channels has at least one hardened steel insert with inner teeth which grip the cable and outer teeth which grip the base or cover. A vibration damper may be formed as part of the connector or as a separate piece which is attached to the connector.Type: GrantFiled: August 15, 1997Date of Patent: February 8, 2000Assignee: Thomas P. PolidoriInventor: Mario Polidori
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Patent number: 6018606Abstract: A fiber fixing device for a linear lightguide comprises a tubular chuck and an elastic tubular body. The chuck includes a hollow part along its axis for receiving an optical fiber, a grasp part for grasping the received optical fiber, and a coupling part supporting the grasp part. The elastic tubular body is elastically expanded outwardly in the radial direction and in this state is fitted onto the grasp part of the chuck. Thus, the elastic tubular body exerts an elastic restoring force to radially inwardly press the grasp part which thereby grasps the optical fiber.Type: GrantFiled: March 27, 1997Date of Patent: January 25, 2000Assignees: Sumitomo Electric Industries, Ltd., Koken Co., Ltd.Inventors: Kazuki Sogabe, Hideya Konda, Toshihiro Nakae, Mitsuyoshi Suzuki
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Patent number: 6018607Abstract: A fiber optic light guide for a measurement or illumination system is described, in which an inside space left free in a fiber optic light guide unit is bounded laterally by a closed wall formed by the fiber optic light guide unit.Type: GrantFiled: April 22, 1997Date of Patent: January 25, 2000Assignee: BYK-Gardner, GmbHInventor: Peter Schwarz
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Patent number: 6014395Abstract: A conductive element with a lateral oxidation barrier is provided for the control of lateral oxidation processes in semiconductor devices such as lasers, vertical cavity surface emitting lasers and light emitting diodes. The oxidation barrier is formed through modification of one or more layers which initially were receptive to oxidation. The quality of material directly below the oxidation barrier may be preserved. Related applications include the formation of vertical cavity surface emitting lasers on non-GaAs substrates and on GaAs substrates.Type: GrantFiled: January 22, 1999Date of Patent: January 11, 2000Assignee: Picolight IncorporatedInventor: Jack L. Jewell
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Patent number: 6014483Abstract: A device for collective optical coupling between a single-mode fiber bundle and an electronic module in the optical telecommunications field which includes joining the single-mode fiber bundle to a graded-index fiber bundle and fracturing the fibers of the graded-index fiber bundle so as to produce graded-index fiber sections in order to form a lens at each end of the single-mode fibers.Type: GrantFiled: August 13, 1997Date of Patent: January 11, 2000Assignee: France TelecomInventors: Monique Thual, Jean Lostec, Patrick Auvray, Benedicte Clavel
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Patent number: 6014475Abstract: A non reciprocal optical device for transmitting light in a forward and reverse direction substantially independently of polarization state from a collection of waveguides. The device includes: a first array of spaced apart waveguides having at least a first wave guide and a second waveguide; a second array of spaced apart waveguides including at least a third waveguide; an imaging component for focusing a diverging beam of light disposed between the first array and the second array of waveguides, at least two polarization equalization components for polarization equalization of diverging or converging light, each of the polarization equalization components disposed between a waveguide array and the imaging component; add a plurality of polarization rotation components disposed between each waveguide array. Light from the first waveguide is transmitted to the third waveguide and light from the third waveguide is transmitted to the second waveguide in a polarization independent manner.Type: GrantFiled: October 2, 1997Date of Patent: January 11, 2000Assignee: Australian Technology Park Photonic Technologies Pty. Ltd.Inventor: Steven James Frisken
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Patent number: 6011892Abstract: A fiber suitable for use in high capacity optical fiber network operative with wavelength division multiplexing. Contemplated systems can utilize span distances in excess of 100 km, signal amplification within spans, and provide plural multiplexed channels operative at multiple gigabits per second.Type: GrantFiled: July 16, 1998Date of Patent: January 4, 2000Assignee: Lucent Technologies Inc.Inventors: Andrew R. Chraplyvy, Robert William Tkach
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Patent number: 6011891Abstract: An improved waveguide for an infrared thermometer, comprising a silver halide optical fiber cable of low transmission loss, a high aspect ratio, and a radially decreasing index of refraction. The transmission loss is low enough to enable the cable to be up to ten meters in length, thereby extending beyond the housing of the thermometer and being insertable in confined spaces such as an ear canal. The small cross sectional area and radially decreasing index of refraction of the cable make the field of view of the cable small enough to enable it to resolve targets as small as a portion of the human tympanic membrane, enabling the device to be used to measure the core temperature of humans and other organisms.Type: GrantFiled: April 18, 1997Date of Patent: January 4, 2000Inventors: Abraham Katzir, Ophir Eyal, Ari Derow
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Patent number: 6011886Abstract: Applicants have determined that the temperature sensitivity of long period grating devices is substantially affected by the provision of a polymeric coating over the conventional glass cladding and, in particular, that by providing a polymer overcoating with an appropriately selected index of refraction, one can minimize temperature sensitivity. In a preferred embodiment, the temperature sensitivity of a long period grating written in conventional dispersion-shifted fiber is reduced to 0.40 nm/100.degree. C.Type: GrantFiled: October 16, 1997Date of Patent: January 4, 2000Assignee: Lucent Technologies Inc.Inventors: Anatoli A. Abramov, Arturo Hale, Ashish Madhukar Vengsarkar
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Patent number: 6009219Abstract: The invention is an optical switching device having a switching element which, in one aspect is a solid switching body to reduce beam spread, in a second aspect is trapezoidal in cross-section so that the optical channels selectively connected by the switching body are conveniently located on one side of the device, and in a third aspect is a retroreflective switching element that eliminates the need to achieve and maintain precise angular alignment between the switching body and the optical axes of the optical channels connected by the switching device.Type: GrantFiled: April 7, 1997Date of Patent: December 28, 1999Assignee: Axiom Analytical IncorporatedInventor: Walter M. Doyle
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Patent number: 6009216Abstract: Lengths of coiled tubing have sensor carrier elements mounted therebetween such that a plurality of sensor carrier elements are positioned along a length of coiled tubing. Each sensor carrier element carriers a sensor implemented with one or more intrinsic fiber optic sensor elements positioned therein for measuring one or more parameters in an environment. The intrinsic fiber optic sensor elements are multiplexed on one or more optical fibers along the length of the coiled tubing thereby forming a length of coiled tubing having a plurality of spaced apart sensors. The optical fiber or fibers positioned along the length of the coiled tubing are positioned in a fiber carrier which protects the fiber or fibers from the harsh environment. The fiber carrier may be interconnected to each of the sensors to isolate the fibers from the harsh environment.Type: GrantFiled: November 5, 1997Date of Patent: December 28, 1999Assignee: CiDRA CorporationInventors: Phillip Edmund Pruett, Arthur D. Hay, Guy A. Daigle