Patents by Inventor Dean Y. Lin
Dean Y. Lin 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: 9606350Abstract: In certain embodiments, a scanning system includes optical elements and a movement system. The optical elements include an optical fiber and a gradient-index (GRIN) lens. The optical fiber has a fiber axis that extends to an imaginary fiber axis, and is configured to transmit a light ray. The GRIN lens has a GRIN perimeter and a GRIN lens optical axis, and is configured to refract the light ray. The movement system moves a first optical element relative to a second optical element in a closed path such that the GRIN lens optical axis substantially aligns with the imaginary fiber axis at at least one point of the path and the GRIN perimeter intersects the imaginary fiber axis at at least two points of the path.Type: GrantFiled: May 1, 2013Date of Patent: March 28, 2017Assignee: Novartis AGInventors: Dean Y. Lin, Kambiz Parto, Edouard G. Schmidtlin, Barry L. Wheatley
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Patent number: 9323049Abstract: In certain embodiments, a scanning system comprises optical elements and a movement system. The optical elements comprise an optical fiber and a focusing element. The optical fiber transmits a light ray and has a fiber axis that extends to an imaginary fiber axis. The focusing element refracts the light ray and has a focusing element optical axis that is substantially aligned with the imaginary fiber axis. The movement system rotates the focusing element about the focusing element optical axis to scan the light ray. In other embodiments, a scanning system comprises optical elements and a movement system. The optical elements comprise an optical fiber, a focusing element, and a prism. The prism has a prism optical axis and receives the light ray from the focusing element. The movement system rotates the prism about the prism optical axis to scan the light ray.Type: GrantFiled: May 7, 2013Date of Patent: April 26, 2016Assignee: Novartis AGInventors: Tammo Hereen, Mauricio Jochinsen, Dean Y. Lin, Michael J. Papac, Kambiz Parto, Edouard G. Schmidtlin, Barry L. Wheatley, Lingfeng Yu
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Publication number: 20140333978Abstract: In certain embodiments, a scanning system comprises optical elements and a movement system. The optical elements comprise an optical fiber and a focusing element. The optical fiber transmits a light ray and has a fiber axis that extends to an imaginary fiber axis. The focusing element refracts the light ray and has a focusing element optical axis that is substantially aligned with the imaginary fiber axis. The movement system rotates the focusing element about the focusing element optical axis to scan the light ray. In other embodiments, a scanning system comprises optical elements and a movement system. The optical elements comprise an optical fiber, a focusing element, and a prism. The prism has a prism optical axis and receives the light ray from the focusing element. The movement system rotates the prism about the prism optical axis to scan the light ray.Type: ApplicationFiled: May 7, 2013Publication date: November 13, 2014Applicant: ALCON RESEARCH, LTD.Inventors: Tammo Hereen, Mauricio Jochinsen, Dean Y. Lin, Michael J. Papac, Kambiz Parto, Edouard G. Schmidtlin, Barry L. Wheatley, Lingfeng Yu
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Publication number: 20140327947Abstract: In certain embodiments, a scanning system includes optical elements and a movement system. The optical elements include an optical fiber and a gradient-index (GRIN) lens. The optical fiber has a fiber axis that extends to an imaginary fiber axis, and is configured to transmit a light ray. The GRIN lens has a GRIN perimeter and a GRIN lens optical axis, and is configured to refract the light ray. The movement system moves a first optical element relative to a second optical element in a closed path such that the GRIN lens optical axis substantially aligns with the imaginary fiber axis at at least one point of the path and the GRIN perimeter intersects the imaginary fiber axis at at least two points of the path.Type: ApplicationFiled: May 1, 2013Publication date: November 6, 2014Inventors: Dean Y. Lin, Kambiz Parto, Edouard G. Schmidtlin, Barry L. Wheatley
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Patent number: 8542962Abstract: Embodiments of endo-illuminators and related methods are disclosed. One embodiment of an illuminator can comprise a cannula defining a passage, an optical element disposed at an end of the cannula, and an optical fiber running through the passage with the distal end of the optical fiber in contact with the optical element. The optical fiber includes at least a heat preconditioned distal portion that terminates in the distal end that is in contact with the optical element.Type: GrantFiled: August 13, 2009Date of Patent: September 24, 2013Assignee: Alcon Research, Ltd.Inventors: Ronald T. Smith, Dean Y. Lin, Jack R. Auld, Timothy C. Ryan
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Patent number: 8498506Abstract: Embodiments of endo-illuminators and related methods are disclosed. One embodiment of an illuminator can comprise a cannula defining a passage, an optical element disposed at an end of the cannula, and an optical fiber running through the passage with the distal end of the optical fiber in contact with the optical element. The optical fiber includes at least a heat preconditioned distal portion that terminates in the distal end that is in contact with the optical element.Type: GrantFiled: March 26, 2012Date of Patent: July 30, 2013Assignee: Alcon Research, Ltd.Inventors: Ronald T. Smith, Dean Y. Lin, Jack R. Auld, Timothy C. Ryan
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Publication number: 20130081253Abstract: Embodiments of endo-illuminators and related methods are disclosed. One embodiment of an illuminator can comprise a cannula defining a passage, an optical element disposed at an end of the cannula, and an optical fiber running through the passage with the distal end of the optical fiber in contact with the optical element. The optical fiber includes at least a heat preconditioned distal portion that terminates in the distal end that is in contact with the optical element.Type: ApplicationFiled: March 26, 2012Publication date: April 4, 2013Inventors: Ronald T. Smith, Dean Y. Lin, Jack R. Auld, Timothy C. Ryan
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Patent number: 7783346Abstract: A transparent illuminated infusion cannula is provided for illuminating an area during eye surgery. An optical fiber may be spaced a certain distance away from the cannula such that fluid flow around the distal end of the fiber and into the transparent cannula may occur with a much higher flow rate than what had previously been possible. The fiber cannula airspace may be optimized so that the cross-sectional area of the fluid conduit remains substantially constant in order to achieve a best compromise between high light transmittance and high fluid flow rate.Type: GrantFiled: December 18, 2006Date of Patent: August 24, 2010Assignee: Alcon, Inc.Inventors: Ronald T. Smith, Jack R. Auld, Christopher McCollam, Dean Y. Lin, Dyson Hickingbotham
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Publication number: 20100042080Abstract: Embodiments of endo-illuminators and related methods are disclosed. One embodiment of an illuminator can comprise a cannula defining a passage, an optical element disposed at an end of the cannula, and an optical fiber running through the passage with the distal end of the optical fiber in contact with the optical element. The optical fiber includes at least a heat preconditioned distal portion that terminates in the distal end that is in contact with the optical element.Type: ApplicationFiled: August 13, 2009Publication date: February 18, 2010Inventors: Ronald T. Smith, Dean Y. Lin, Jack R. Auld, Timothy C. Ryan
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Publication number: 20080177257Abstract: In embodiments of the invention, a plastic optical fiber is bonded to a high temperature distal part to form a thermally robust illumination probe. The distal part is short in length, is made of a high temperature material(s), has a proper shape for guiding light in a desired application, and may be coated with a reflective coating to ensure that the light rays trapped within the part do not escape when the side of the part is in contact with high refractive index or absorptive materials. The distal part may be made of high temperature material(s) such as high temperature plastic rods, glass optical fibers, and so on. The distal end may be tapered or sculpted to a desired configuration. The plastic optical fiber and the high temperature distal part may be joined, using an optical adhesive, inside a steel cannula, a plastic hub, an optical connector, etc.Type: ApplicationFiled: January 21, 2008Publication date: July 24, 2008Inventors: Ronald T. Smith, Jack R. Auld, Dean Y. Lin
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Patent number: 5728290Abstract: A polarographic sensor device to determine the partial pressure of a gas in a sample medium is disclosed. The device comprises a) a substantially hydroscopic electrolyte composition joining a pair of spaced apart electrodes, one of the pair of electrodes being a sensing electrode; b) a membrane permeable to gas but impermeable to the electrolyte, the membrane having a front section for separating the electrodes and the electrolyte from the sample medium; and c) a fastener comprising a sleeve having a body portion and a lip, the body portion retaining the fastener and a side section of the membrane, and the lip retaining a portion of the front section of the membrane and holding substantially the entire front section in a spaced apart relationship from the sensing electrode.Type: GrantFiled: June 3, 1996Date of Patent: March 17, 1998Assignee: Beckman Instruments, Inc.Inventors: Yougin E. Xie, Dean Y. Lin, Khan V. Nguyen, Frank R. Shu