Patents by Inventor Robert Hanf
Robert Hanf 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: 11029460Abstract: A waveguide, in particular an optical fiber, is coated and is of flexible configuration so that the waveguide can be laid in an adaptable manner, wherein the coating includes a light-frequency-converting substance so that in the event of UV light or IR light being coupled into the waveguide and an overbent waveguide, visible light escapes from the waveguide at a bend point.Type: GrantFiled: February 23, 2018Date of Patent: June 8, 2021Assignee: LEONI KABEL GmbHInventor: Robert Hanf
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Patent number: 10974991Abstract: A device for coating a fiber includes a fiber receiving arrangement and a coating arrangement which includes an application unit which wets the fiber with a coating agent, and a curing unit arranged downstream of the application unit which optically cures the coating agent. The curing unit includes a lamp which emits at least one light beam which is aimed directly or indirectly at a surface of the fiber. A main radiation direction of the lamp includes a beam angle between the main radiation direction and a longitudinal direction of the fiber of less than 40°. The fiber receiving arrangement and the application unit are movable relative to each other in the longitudinal direction of the fiber via a translational motion arrangement so that a wetting process is implemented substantially along an entire length of the fiber.Type: GrantFiled: December 16, 2016Date of Patent: April 13, 2021Assignee: J-FIBER GMBHInventors: Robert Hanf, Lothar Brehm, Juergen Rosenkranz
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Patent number: 10604440Abstract: A method for a defined deposition of a glass layer on an inner wall of a preform for an optical fiber and/or for setting a refractive index profile of the preform for a multi-mode fiber. The method includes providing the preform having a cavity and an inner wall which defines an inner diameter of the preform, and spreading a deposition gas at a flow speed (v) in the cavity of the preform so as to provide the defined deposition of the glass layer. The defined deposition is performed at a reduced change in the flow speed a*?v, where a<1. Based on the defined deposition, a change in the flow speed (?v): ? ? ? v = 4 ? ? Q ? · ( 1 d i 2 - 1 d i + 1 2 ) forms at a volume flow (Q), a first diameter (di), and a second diameter (di+1).Type: GrantFiled: July 13, 2016Date of Patent: March 31, 2020Assignee: J-FIBER GMBHInventors: Robert Hanf, Christian Genz, Lothar Brehm
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Publication number: 20200064530Abstract: A waveguide, in particular an optical fiber, is coated and is of flexible configuration so that the waveguide can be laid in an adaptable manner, wherein the coating includes a light-frequency-converting substance so that in the event of UV light or IR light being coupled into the waveguide and an overbent waveguide, visible light escapes from the waveguide at a bend point.Type: ApplicationFiled: February 23, 2018Publication date: February 27, 2020Applicant: LEONI KABEL GmbHInventor: Robert HANF
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Patent number: 10131565Abstract: Preform for an optical waveguide containing a core with a non-circular geometry and at least one cladding layer, in which the dopand concentration of the cladding layer is increased compared to the dopand concentration of a preform with circular core geometry and identical NA. A method for the production of a preform for an optical fiber is provided. An optical waveguide with a nominal dopand concentration of c(eff)×F?c(nom) in at least one cladding layer is also provided.Type: GrantFiled: April 15, 2015Date of Patent: November 20, 2018Assignee: j-plasma GmbHInventors: Ralitsa Rosenow, Roland Heinze, Jörg Kötzing, Robert Hanf, Lothar Brehm
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Publication number: 20180201536Abstract: A method for a defined deposition of a glass layer on an inner wall of a preform for an optical fiber and/or for setting a refractive index profile of the preform for a multi-mode fiber. The method includes providing the preform having a cavity and an inner wall which defines an inner diameter of the preform, and spreading a deposition gas at a flow speed (v) in the cavity of the preform so as to provide the defined deposition of the glass layer. The defined deposition is performed at a reduced change in the flow speed a*?v, where a<1. Based on the defined deposition, a change in the flow speed (?v): ? ? ? v = 4 ? ? Q ? · ( 1 d i 2 - 1 d i + 1 2 ) forms at a volume flow (Q), a first diameter (di), and a second diameter (di+1).Type: ApplicationFiled: July 13, 2016Publication date: July 19, 2018Applicant: J-FIBER GMBHInventors: ROBERT HANF, CHRISTIAN GENZ, LOTHAR BREHM
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Patent number: 9976880Abstract: A sensor fiber for the detection of changes of temperature, bending, and/or torsion includes a multicore optical waveguide with a fiber Bragg grating (FBG) structure. One embodiment contains at least two FBG cores and a surrounding cladding. The sensor fiber is characterized by one or more distinction and orientation means which produce a marker zone to assign and label each individual FBG core.Type: GrantFiled: July 26, 2013Date of Patent: May 22, 2018Assignee: S-fiber, GmbHInventors: Lothar Brehm, Jurgen Rosenkranz, Otto Bernauer, Ralitsa Rosenow, Armin Landers, Katrin Roessner, Robert Hanf
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Patent number: 9720264Abstract: The invention relates to a method for producing a polarization-maintaining optical fiber, consisting of a core region and stress-generating elements embedded in the fiber body, having the following method steps: producing a core preform for the core region using internal deposition on a substrate tube, the internally coated substrate tube subsequently being collapsed, generating recesses on the core preform by virtue of the material on the outer surface of the core preform being removed parallel to the longitudinal axis of the core preform at diametrically opposed positions, filling the recesses with stress-generating rods, with the tightest possible rod packing, in a freely selectable first filling geometry, possibly filling the recesses in addition with non-stress-generating rods in a second filling geometry, sheathing the filled core preform with a jacketing tube, preparing the sheathed core preform for a fiber-drawing process, and drawing the sheathed arrangement to form the optical fiber.Type: GrantFiled: May 6, 2015Date of Patent: August 1, 2017Assignee: J-FIBER GMBHInventors: Thomas Gutsche, Wolfgang Hämmerle, Robert Hanf, Lothar Brehm
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Publication number: 20170190614Abstract: A device for coating a fiber includes a fiber receiving arrangement and a coating arrangement which includes an application unit which wets the fiber with a coating agent, and a curing unit arranged downstream of the application unit which optically cures the coating agent. The curing unit includes a lamp which emits at least one light beam which is aimed directly or indirectly at a surface of the fiber. A main radiation direction of the lamp includes a beam angle between the main radiation direction and a longitudinal direction of the fiber of less than 40°. The fiber receiving arrangement and the application unit are movable relative to each other in the longitudinal direction of the fiber via a translational motion arrangement so that a wetting process is implemented substantially along an entire length of the fiber.Type: ApplicationFiled: December 16, 2016Publication date: July 6, 2017Applicant: J-FIBER GMBHInventors: ROBERT HANF, LOTHAR BREHM, JUERGEN ROSENKRANZ
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Publication number: 20170075147Abstract: The invention relates to a method for producing a polarization-maintaining optical fibre, consisting of a core region and stress-generating elements embedded in the fibre body, having the following method steps: producing a core preform for the core region using internal deposition on a substrate tube, the internally coated substrate tube subsequently being collapsed, generating recesses on the core preform by virtue of the material on the outer surface of the core preform being removed parallel to the longitudinal axis of the core preform at diametrically opposed positions, filling the recesses with stress-generating rods, with the tightest possible rod packing, in a freely selectable first filling geometry, possibly filling the recesses in addition with non-stress-generating rods in a second filling geometry, sheathing the filled core preform with a jacketing tube, preparing the sheathed core preform for a fibre-drawing process, and drawing the sheathed arrangement to form in the optical fibre.Type: ApplicationFiled: May 6, 2015Publication date: March 16, 2017Inventors: Thomas Gutsche, Wolfgang Hämmerle, Robert Hanf, Lothar Brehm
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Method for the unidirectional and or bidirectional removal of a cladding layer of an optical preform
Patent number: 9475729Abstract: The invention describes a method for the removal of glass where the parameters of the removal process are set over the length of the substrate (preform) so that a uniform removal can be achieved over the complete substrate length.Type: GrantFiled: October 23, 2015Date of Patent: October 25, 2016Assignee: j-plasma GmbHInventors: Jörg Kötzing, Robert Hanf, Lothar Brehm -
Method for the Unidirectional and or Bidirectional Removal of a Cladding Layer of an Optical Preform
Publication number: 20160115075Abstract: The invention describes a method for the removal of glass where the parameters of the removal process are set over the length of the substrate (preform) so that a uniform removal can be achieved over the complete substrate length.Type: ApplicationFiled: October 23, 2015Publication date: April 28, 2016Inventors: Jörg Kötzing, Robert Hanf, Lothar Brehm -
Patent number: 9255026Abstract: Methods for making active laser fibers include the production of an optical fiber with disturbed (or deviated) cylindrical symmetry on the glass surface of the fiber. The methods include a preform containing a central core made of glass. In one embodiment, the preform is circular and surrounded by additional glass rods and an outer glass jacket tube. In a first alternative embodiment, this preform is merged during fiber drawing. In a second alternative embodiment, the preform merged in a process forming a compact glass body with disturbed cylindrical symmetry. This compact preform is drawn into a fiber under conditions maintaining the disturbed cylindrical symmetry.Type: GrantFiled: March 6, 2013Date of Patent: February 9, 2016Assignee: j-fiber, GmbHInventors: Jurgen Rosenkranz, Wolfgang Haemmerle, Lothar Brehm, Katrin Roessner, Robert Hanf
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Publication number: 20150301278Abstract: Preform for an optical waveguide containing a core with a non-circular geometry and at least one cladding layer, in which the dopand concentration of the cladding layer is increased compared to the dopand concentration of a preform with circular core geometry and identical NA. A method for the production of a preform for an optical fiber is provided. An optical waveguide with a nominal dopand concentration of c(eff) x F?c(nom) in at least one cladding layer is also provided.Type: ApplicationFiled: April 15, 2015Publication date: October 22, 2015Inventors: Ralitsa Rosenow, Roland Heinze, Jörg Kötzing, Robert Hanf, Lothar Brehm
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Publication number: 20140029889Abstract: A sensor fiber for the detection of changes of temperature, bending, and/or torsion includes a multicore optical waveguide with a fiber Bragg grating (FBG) structure. One embodiment contains at least two FBG cores and a surrounding cladding. The sensor fiber is characterized by one or more distinction and orientation means which produce a marker zone to assign and label each individual FBG core.Type: ApplicationFiled: July 26, 2013Publication date: January 30, 2014Inventors: Lothar Brehm, Jurgen Rosenkranz, Otto Bernauer, Ralitsa Rosenow, Armin Landers, Katrin Roessner, Robert Hanf
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Publication number: 20130239623Abstract: Methods for making active laser fibers include the production of an optical fiber with disturbed (or deviated) cylindrical symmetry on the glass surface of the fiber. The methods include a preform containing a central core made of glass. In one embodiment, the preform is circular and surrounded by additional glass rods and an outer glass jacket tube. In a first alternative embodiment, this preform is merged during fiber drawing. In a second alternative embodiment, the preform merged in a process forming a compact glass body with disturbed cylindrical symmetry. This compact preform is drawn into a fiber under conditions maintaining the disturbed cylindrical symmetry.Type: ApplicationFiled: March 6, 2013Publication date: September 19, 2013Inventors: Jurgen Rosenkranz, Wolfgang Heammerle, Lothar Brehm, Katrin Roessner, Robert Hanf