Patents by Inventor Robin Alexander KRÜGER
Robin Alexander KRÜGER 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: 20230201970Abstract: A substrate comprises glass, sapphire, silicon and/or aluminosilicate, and has at least one recess or through-opening. The at least one recess or through-opening is formed by anisotropic removal of substrate material by etching a portion of the substrate that has been modified by a pulse of laser radiation in a direction of a thickness of the substrate. The modified portion of the substrate extends along a beam axis of the laser radiation. The pulse of laser radiation was applied with a focus extending from a first focal depth positioned past one side of the substrate to a second focal depth located at an opposite side of the substrate.Type: ApplicationFiled: February 28, 2023Publication date: June 29, 2023Inventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Patent number: 11618104Abstract: A device for modifying a region of a substrate includes a laser radiation source for pulsed laser radiation. A transmissive medium having a higher intensity-dependent refraction index than air is arranged between a laser machining head and the substrate such that an individual pulse of the pulsed laser radiation from the laser machining head is deflected through the transmissive medium and across a thickness of the substrate from an original focal depth to a focal depth different from the original focal depth to modify the substrate along a beam axis of the laser radiation in a region of a recess or through-opening to be formed in the substrate without removing an amount of the substrate material necessary to form the recess or through-opening. A length between the focal depths is greater than and extends across the thickness of the substrate.Type: GrantFiled: February 24, 2020Date of Patent: April 4, 2023Assignee: LPKF LASER & ELECTRONICS SEInventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Patent number: 11613803Abstract: Use of a laser-activatable component in a composition and/or use of a composition that includes the laser-activatable component, during laser transfer printing, characterized in that the laser-activatable component is activated by laser irradiation during use in such a way that the viscosity and/or the elasticity and/or the tack of the composition increase(s) due to an increase in temperature of the composition, wherein the laser-activatable component is a polymer made up of the groups comprising polyethylene glycol, polyvinylpyrrolidone, polyvinyl acetate, polyvinyl alcohol, polyacrylate, polyester, or copolymers of these polymers or blends.Type: GrantFiled: November 9, 2020Date of Patent: March 28, 2023Assignee: LPKF Laser & Electronics AGInventors: Robin Alexander Krüger, Malte Schulz-Ruhtenberg, Marc Hüske
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Publication number: 20230026070Abstract: A method produces a composite from a conductive structure, a carrier made of non-conductive carrier material made from thermosetting plastic, and at least one electronic component by laser radiation. The non-conductive carrier material having an additive, which is configured to subsequently form a catalytically active species in an electroless metallization bath by irradiation with the laser radiation. The method includes: forming the conductive structure being by irradiation using pulsed laser radiation having a pulse duration of less than 100 picoseconds and subsequent electroless metallization. A pulse repetition rate is set such that consecutive pulses of the pulsed laser radiation in an area of the additive to be activated or an additive area are diverted mutually overlapping onto the additive or the additive area.Type: ApplicationFiled: October 1, 2020Publication date: January 26, 2023Inventors: Bernd Roesener, Robin Alexander Krueger, Andreas Fischer
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Patent number: 11401194Abstract: An aspect of the invention provides a device, comprising: a laser machining head configured to deflect laser radiation onto an optical system comprising a substrate, the device being configured to carry out a method for separating the substrate using the optical system, the optical system being configured to provide the laser radiation, a thickness of the substrate not exceeding 2 mm in a region of a separating line, the method comprising: applying pulsed laser radiation having a pulse duration (t) to a substrate material of the substrate using the optical system, the substrate material being transparent at least in part to a laser wavelength of the pulsed laser radiation, the pulsed laser radiation being focused using the optical system at an original focal depth (f1), an intensity of the pulsed laser radiation leading to a modification of the substrate along a beam axis (Z) of the pulsed laser radiation.Type: GrantFiled: August 21, 2017Date of Patent: August 2, 2022Assignee: LPKF LASER & ELECTRONICS AGInventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Publication number: 20210189544Abstract: Use of a laser-activatable component in a composition and/or use of a composition that includes the laser-activatable component, during laser transfer printing, characterized in that the laser-activatable component is activated by laser irradiation during use in such a way that the viscosity and/or the elasticity and/or the tack of the composition increase(s) due to an increase in temperature of the composition, wherein the laser-activatable component is a polymer made up of the groups comprising polyethylene glycol, polyvinylpyrrolidone, polyvinyl acetate, polyvinyl alcohol, polyacrylate, polyester, or copolymers of these polymers or blends.Type: ApplicationFiled: November 9, 2020Publication date: June 24, 2021Inventors: Robin Alexander KRÜGER, Malte SCHULZ-RUHTENBERG, Marc HÜSKE
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Publication number: 20200189039Abstract: A device for modifying a region of a substrate includes a laser radiation source for pulsed laser radiation. A transmissive medium having a higher intensity-dependent refraction index than air is arranged between a laser machining head and the substrate such that an individual pulse of the pulsed laser radiation from the laser machining head is deflected through the transmissive medium and across a thickness of the substrate from an original focal depth to a focal depth different from the original focal depth to modify the substrate along a beam axis of the laser radiation in a region of a recess or through-opening to be formed in the substrate without removing an amount of the substrate material necessary to form the recess or through-opening. A length between the focal depths is greater than and extends across the thickness of the substrate.Type: ApplicationFiled: February 24, 2020Publication date: June 18, 2020Inventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Patent number: 10610971Abstract: A method for producing a recess or through-opening in a substrate includes applying pulsed laser radiation to the substrate. The laser radiation is focused using an optical system at an original focal depth and, by non-linear self-focusing within the pulse duration of an individual pulse, is also focused by the optical system at a focal depth different from the original focal depth. A difference between the focal depths corresponds to or is greater than the longitudinal extent of the recess or though-opening to be produced. The laser radiation modifies the substrate along a beam axis of the laser radiation in the region of the recess or through-opening, but does not result in removal of the substrate material necessary to form the recess or the through-opening. The substrate material in the modified region is anisotropically removed to produce the recess or through-opening in the substrate.Type: GrantFiled: April 3, 2014Date of Patent: April 7, 2020Assignee: LPKF LASER & ELECTRONICS AGInventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Patent number: 9924601Abstract: A method for the at least portion-wise and adhesive metallization of a non-conductive workpiece includes introducing periodic microstructures into the workpiece in regions to be metallized, within an area to be metallized that is enclosed by one or more limiting lines, by molding a tool that is microstructured in accordance with the regions to be metallized within a molding area.Type: GrantFiled: December 3, 2013Date of Patent: March 20, 2018Assignee: LPKF LASER & ELECTRONICS AGInventors: Roman Ostholt, Robin Alexander Krueger, Bernd Roesener, Eugen Haumann
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Publication number: 20170341971Abstract: An aspect of the invention provides a device, comprising: a laser machining head configured to deflect laser radiation onto an optical system comprising a substrate, the device being configured to carry out a method for separating the substrate using the optical system, the optical system being configured to provide the laser radiation, a thickness of the substrate not exceeding 2 mm in a region of a separating line, the method comprising: applying pulsed laser radiation having a pulse duration (t) to a substrate material of the substrate using the optical system, the substrate material being transparent at least in part to a laser wavelength of the pulsed laser radiation, the pulsed laser radiation being focused using the optical system at an original focal depth (f1), an intensity of the pulsed laser radiation leading to a modification of the substrate along a beam axis (Z) of the pulsed laser radiation.Type: ApplicationFiled: August 21, 2017Publication date: November 30, 2017Inventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Patent number: 9764978Abstract: A method and device for separating a substrate with a laser beam. The duration of the laser beam's effect is extremely short, so the substrate is only modified concentrically about the laser beam axis (Z) without it degrading the substrate material. While the laser beam acts upon the substrate, the substrate moves relative to a laser machining head, producing plural filament-type modifications along a separating surface to be incorporated. The laser beam is initially diverted by a transmission medium having a higher intensity dependent refractive index than air, then reaches the substrate. The non-constant pulsed laser intensity increases to a maximum over the temporal course of the single pulse, then reduces, and the refractive index changes. The laser beam focus point moves between the substrate's outer surfaces along the beam axis (Z), reaching the desired modification along the beam axis (Z) without correcting the laser machining head in the z-axis.Type: GrantFiled: April 3, 2014Date of Patent: September 19, 2017Assignee: LPKF LASER & ELECTRONICS AGInventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Patent number: 9676927Abstract: This invention relates to products of aqueous and other chemical synthetic routes for encapsulation of a core material with an inorganic shell and finished compositions of a core-shell particulate material for application in thermoplastic, thermoset, and coatings resins prior to compounding or application or subsequent thermal processing steps. Disclosed is a composition of particles containing a shell of inorganic oxides or mixed-metal inorganic oxides and a core material of complex inorganic colored pigment, laser direct structuring additives, laser marking, or other beneficial metal oxides, metal compounds, or mixed-metal oxide materials, wherein the shell material is comprised of any single oxide or combination of oxides is taught. Preferred elements of composition for the shell are oxides and silicates of B, Ni, Zn, Al, Zr, Si, Sn, Bi, W, Mo, Cr, Mg, Mn, Ce, Ti, and Ba (or mixtures thereof).Type: GrantFiled: March 23, 2015Date of Patent: June 13, 2017Assignees: The Shepherd Color Company, LPKF Laser & Electronics AGInventors: Michael D. Musick, David Ziemnik, James P. White, Robin Alexander Krüger, Bernd Rösener, Malte Sebastian Fengler
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Publication number: 20160060156Abstract: A method and device for separating a substrate with a laser beam. The duration of the laser beam's effect is extremely short, so the substrate is only modified concentrically about the laser beam axis (Z) without it degrading the substrate material. While the laser beam acts upon the substrate, the substrate moves relative to a laser machining head, producing plural filament-type modifications along a separating surface to be incorporated. The laser beam is initially diverted by a transmission medium having a higher intensity dependent refractive index than air, then reaches the substrate. The non-constant pulsed laser intensity increases to a maximum over the temporal course of the single pulse, then reduces, and the refractive index changes. The laser beam focus point moves between the substrate's outer surfaces along the beam axis (Z), reaching the desired modification along the beam axis (Z) without correcting the laser machining head in the z-axis.Type: ApplicationFiled: April 3, 2014Publication date: March 3, 2016Inventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Publication number: 20160059359Abstract: A method and device can create, with a laser beam, plural recesses in a substrate useful as an interposer, and a substrate produced thereby. A laser beam may be directed to the surface of a substrate. The duration of the laser beam effect is extremely short such that the substrate is only modified concentrically about the laser beam axis without reaching a substrate material recess. The laser beam is initially diverted by a transmission medium having a higher intensity-dependent refractive index than air, and subsequently reaching the substrate. Non-constant pulsed laser intensity increases to a maximum over the temporal course of the single pulse, then reduces; the refractive index also changes. The focus point of the laser beam moves between the outer surfaces of the substrate along the beam axis such that it reaches the desired modification along the beam axis without correcting the laser processing head in the z-axis.Type: ApplicationFiled: April 3, 2014Publication date: March 3, 2016Inventors: Robin Alexander Krueger, Norbert Ambrosius, Roman Ostholt
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Publication number: 20160037650Abstract: A method for the at least portion-wise and adhesive metallisation of a non-conductive workpiece includes introducing periodic microstructures into the workpiece in regions to be metallised, within an area to be metallised that is enclosed by one or more limiting lines, by moulding a tool that is microstructured in accordance with the regions to be metallised within a moulding area.Type: ApplicationFiled: December 3, 2013Publication date: February 4, 2016Inventors: Roman OSTHOLT, Robin Alexander KRUEGER, Bernd ROESENER, Eugen HAUMANN
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Publication number: 20160002791Abstract: A method for producing an electrically conductive structure, e.g., a conducting track, on a non-conductive substrate material, having an additive (1) having at least one metal compound. The substrate material may be irradiated using a laser to selectively activate the metal compounds, for example inorganic metal compounds, contained in the additive (1). The metal seeds formed by the activation are then metallized to create the electrically conductive structure on the substrate material. Because the additive (1) has a preferably full-surface coating before the additive is introduced into the substrate material, such that the additive (1) is reduced and the coating is oxidized by the laser activation, the reaction partners necessary for the required chemical reaction with the additive (1) are provided by the coating. Because of the thereby significantly reduced interaction with the substrate material, the limitation to certain plastics or plastic groups also is lifted.Type: ApplicationFiled: December 6, 2013Publication date: January 7, 2016Inventors: Robin Alexander KRÜGER, Bernd RÖSENER, Wolfgang JOHN, Arne SCHNOOR, Roman OSTHOLT
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Publication number: 20150291778Abstract: This invention relates to products of aqueous and other chemical synthetic routes for encapsulation of a core material with an inorganic shell and finished compositions of a core-shell particulate material for application in thermoplastic, thermoset, and coatings resins prior to compounding or application or subsequent thermal processing steps. Disclosed is a composition of particles containing a shell of inorganic oxides or mixed-metal inorganic oxides and a core material of complex inorganic colored pigment, laser direct structuring additives, laser marking, or other beneficial metal oxides, metal compounds, or mixed-metal oxide materials, wherein the shell material is comprised of any single oxide or combination of oxides is taught. Preferred elements of composition for the shell are oxides and silicates of B, Ni, Zn, Al, Zr, Si, Sn, Bi, W, Mo, Cr, Mg, Mn, Ce, Ti, and Ba (or mixtures thereof).Type: ApplicationFiled: March 23, 2015Publication date: October 15, 2015Inventors: Michael D. MUSICK, David ZIEMNIK, James P. WHITE, Robin Alexander KRÜGER, Bernd RÖSENER, Malte Sebastian FENGLER