Patents by Inventor Alfred Lell
Alfred Lell 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).
-
Publication number: 20210167581Abstract: An optoelectronic component includes a layer structure including an active zone that generates electromagnetic radiation and is arranged in a plane, wherein the layer structure includes a top side and four side faces, first and third side faces are arranged opposite one another, second and fourth side faces are arranged opposite one another, a strip-shaped ridge structure is arranged on the top side of the layer structure and extends between the first side face and the third side face, the first side face constitutes an emission face for electromagnetic radiation, wherein a first recess is introduced into the top side of the layer structure laterally alongside the ridge structure, a second recess is introduced into the first recess, the second recess extends as far as the second side face, and at least one third recess is introduced into a base face of the first recess laterally alongside the ridge structure.Type: ApplicationFiled: February 10, 2021Publication date: June 3, 2021Inventors: Sven Gerhard, Alfred Lell, Clemens Vierheilig, Andreas Löffler
-
Patent number: 11011887Abstract: A semiconductor laser diode is disclosed. In an embodiment a semiconductor laser diode includes a semiconductor layer sequence including an active layer having a main extension plane, configured to generate light in an active region during operation and configured to radiate the light via a light-outcoupling surface, wherein the active region extends from a rear surface opposite the light-outcoupling surface to the light-outcoupling surface along a longitudinal direction in the main extension plane and a continuous contact structure directly disposed on a surface of the semiconductor layer sequence, wherein the contact structure comprises in at least a first contact region a first electrical contact material in direct contact with the surface region and in at least a second contact region a second electrical contact material in direct contact with the surface region, and wherein the first and second contact regions adjoin one another.Type: GrantFiled: December 21, 2017Date of Patent: May 18, 2021Assignee: OSRAM OLED GMBHInventors: Sven Gerhard, Christoph Eichler, Alfred Lell, Bernhard Stojetz
-
Patent number: 11004876Abstract: A method for producing a semiconductor chip (100) is provided, in which, during a growth process for growing a first semiconductor layer (1), an inhomogeneous lateral temperature distribution is created along at least one direction of extent of the growing first semiconductor layer (1), such that a lateral variation of a material composition of the first semiconductor layer (1) is produced. A semiconductor chip (100) is additionally provided.Type: GrantFiled: July 31, 2019Date of Patent: May 11, 2021Assignee: OSRAM OLED GMBHInventors: Christoph Eichler, Andre Somers, Harald Koenig, Bernhard Stojetz, Andreas Loeffler, Alfred Lell
-
Patent number: 11005005Abstract: An optoelectronic semiconductor device and a method for manufacturing an optoelectronic semiconductor device are disclosed. In an embodiment an optoelectronic semiconductor device includes a semiconductor body comprising a first region of a first conductive type, an active region, a second region of a second conductive type and a coupling-out surface, wherein the first region, the active region and the second region are arranged along a stacking direction, wherein the active region extends from a rear surface opposite the coupling-out surface to the coupling-out surface along a longitudinal direction transverse to or perpendicular to the stacking direction, wherein the coupling-out surface is arranged plane-parallel to the rear surface, and wherein the coupling-out surface and the rear surface of the semiconductor body are produced by an etching process.Type: GrantFiled: May 10, 2019Date of Patent: May 11, 2021Assignee: OSRAM OLED GMBHInventors: Harald König, Jens Ebbecke, Alfred Lell, Sven Gerhard, Clemens Vierheilig
-
Patent number: 10985529Abstract: A semiconductor laser diode includes a semiconductor layer sequence with an active layer having a main extension plane and that generates light in an active region and emits light via a light outcoupling surface during operation, wherein the active region extends from a rear surface opposite the light outcoupling surface to the light outcoupling surface along a longitudinal direction, the semiconductor layer sequence includes a trench structure having at least one trench or a plurality of trenches on at least one side laterally next to the active region, and each trench of the trench structure extends in a longitudinal direction and projects from a top side of the semiconductor layer sequence in a vertical direction into the semiconductor layer sequence, and the trench structure varies in a lateral and/or vertical and/or longitudinal direction with respect to properties of the at least one trench or the plurality of trenches.Type: GrantFiled: July 12, 2017Date of Patent: April 20, 2021Assignee: OSRAM OLED GmbHInventors: Sven Gerhard, Christoph Eichler, Alfred Lell, Bernhard Stojetz
-
Publication number: 20210111030Abstract: A semiconductor laser includes a substrate having a semiconductor layer sequence with an active layer that generates light during operation of the semiconductor laser, and a contact layer on a bottom side of the substrate opposite the semiconductor layer sequence, wherein the contact layer has at least one first partial region and at least one second partial region which are formed contiguously, the at least one first partial region is annealed, and the at least one second partial region is unannealed.Type: ApplicationFiled: December 18, 2020Publication date: April 15, 2021Inventors: Alfred Lell, Georg Brüderl, John Brückner, Sven Gerhard, Muhammad Ali, Thomas Adlhoch
-
Patent number: 10938180Abstract: An optoelectronic component includes a layer structure including an active zone that generates electromagnetic radiation, wherein the active zone is arranged in a plane, the layer structure includes a top side and four side faces, the first and third side faces are arranged opposite one another, the second and fourth side faces are arranged opposite one another, a strip-type ridge structure is arranged on the top side of the layer structure, the ridge structure extends between the first side face and the third side face, the first side face constitutes an emission face for electromagnetic radiation, a first recess is introduced into the top side of the layer structure laterally alongside the ridge structure, a second recess is introduced into the first recess, and the second recess extends as far as the second side face.Type: GrantFiled: March 30, 2020Date of Patent: March 2, 2021Assignee: OSRAM OLED GmbHInventors: Sven Gerhard, Alfred Lell, Clemens Vierheilig, Andreas Löffler
-
Patent number: 10910226Abstract: A method of manufacturing a semiconductor laser including providing a substrate having a semiconductor layer sequence with an active layer that generates light during operation of the semiconductor laser, applying a continuous contact layer having at least one first partial region and at least one second partial region on a bottom side of the substrate opposite the semiconductor layer sequence, and locally annealing the contact layer only in the at least one first partial region.Type: GrantFiled: October 25, 2017Date of Patent: February 2, 2021Assignee: OSRAM OLED GmbHInventors: Alfred Lell, Georg Brüderl, John Brückner, Sven Gerhard, Muhammad Ali, Thomas Adlhoch
-
Patent number: 10811582Abstract: An arrangement is disclosed. In an embodiment the arrangement includes at least one semiconductor component and a heat sink, wherein the semiconductor component is arranged on the heat sink, wherein the heat sink is configured to dissipate heat from the semiconductor component, wherein the heat sink comprises a thermally conductive material, and wherein the material comprises at least aluminum and silicon.Type: GrantFiled: June 15, 2016Date of Patent: October 20, 2020Assignee: OSRAM OLED GMBHInventors: Andreas Loeffler, Thomas Hager, Christoph Walter, Alfred Lell
-
Patent number: 10811843Abstract: The disclosure relates to a semiconductor laser includes a semiconductor layer sequence with an-n-type n-region, a p-type p-region and an active zone lying between the two for the purpose of generating laser radiation. A p-contact layer that is permeable to the laser radiation and consists of a transparent conductive oxide is located directly on the p-region for the purpose of current input. An electrically-conductive metallic p-contact structure is applied directly to the p-contact layer. The p-contact layer is one part of a cover layer, and therefore the laser radiation penetrates as intended into the p-contact layer during operation of the semiconductor laser. Two facets of the semiconductor layer sequence form resonator end surfaces for the laser radiation.Type: GrantFiled: September 27, 2016Date of Patent: October 20, 2020Assignee: OSRAM OLED GMBHInventors: Sven Gerhard, Alfred Lell, Clemens Vierheilig, Andreas Loeffler, Christoph Eichler
-
Publication number: 20200321749Abstract: A semiconductor laser diode includes a semiconductor layer sequence with an active layer having a main extension plane and that generates light in an active region and emits light via a light outcoupling surface during operation, wherein the active region extends from a rear surface opposite the light outcoupling surface to the light outcoupling surface along a longitudinal direction, the semiconductor layer sequence includes a trench structure having at least one trench or a plurality of trenches on at least one side laterally next to the active region, and each trench of the trench structure extends in a longitudinal direction and projects from a top side of the semiconductor layer sequence in a vertical direction into the semiconductor layer sequence, and the trench structure varies in a lateral and/or vertical and/or longitudinal direction with respect to properties of the at least one trench or the plurality of trenches.Type: ApplicationFiled: July 12, 2017Publication date: October 8, 2020Inventors: Sven Gerhard, Christoph Eichler, Alfred Lell, Bernhard Stojetz
-
Publication number: 20200313399Abstract: In one embodiment the semiconductor laser (1) comprises a carrier (2) and an edge-emitting laser diode (3) which is mounted on the carrier (2) and which comprises an active zone (33) for generating a laser radiation (L) and a facet (30) with a radiation exit region (31). The semiconductor laser (1) further comprises a protective cover (4), preferably a lens for collimation of the laser radiation (L). The protective cover (4) is fastened to the facet (30) and to a side surface (20) of the carrier (2) by means of an adhesive (5). A mean distance between a light entrance side (41) of the protective cover (4) and the facet (30) is at most 60 ?m. The semiconductor laser (1) is configured to be operated in a normal atmosphere without additional gas-tight encapsulation.Type: ApplicationFiled: October 8, 2018Publication date: October 1, 2020Inventors: Jörg Erich SORG, Harald KÖNIG, Alfred LELL, Florian PESKOLLER, Karsten AUEN, Roland SCHULZ, Herbert BRUNNER, Frank SINGER, Roland HÜTTINGER
-
Publication number: 20200303898Abstract: A semiconductor light source is disclosed. In one embodiment, a semiconductor light source includes at least one semiconductor laser configured to generate a primary radiation and at least one conversion element configured to generate a longer-wave visible secondary radiation from the primary radiation, wherein the conversion element includes a semiconductor layer sequence having one or more quantum well layers, wherein, in operation, the primary radiation is irradiated into the semiconductor layer sequence parallel to a growth direction thereof, with a tolerance of at most 15°, wherein, in operation, the semiconductor layer sequence is homogeneously illuminated with the primary radiation, and wherein a growth substrate of the semiconductor layer sequence is located between the semiconductor layer sequence and the semiconductor laser, the growth substrate being oriented perpendicular to the growth direction.Type: ApplicationFiled: June 2, 2020Publication date: September 24, 2020Inventors: Bernhard Stojetz, Alfred Lell, Christoph Eichler, Andreas Loeffler
-
Publication number: 20200295534Abstract: An edge emitting laser bar is disclosed. In an embodiment an edge-emitting laser bar includes an AlInGaN-based semiconductor layer sequence having a contact side and an active layer configured to generate laser radiation, a plurality of individual emitters arranged next to each other and spaced apart from one another in a lateral transverse direction, each emitter configured to emit laser radiation and a plurality of contact elements arranged next to each other and spaced apart from one another in the lateral transverse direction on the contact side for making electrical contact with the individual emitters, each contact element being assigned to an individual emitter, wherein each contact element is electrically conductively coupled to the semiconductor layer sequence via a contiguous contact region of the contact side so that a current flow between the semiconductor layer sequence and the contact element is possible via the contact region.Type: ApplicationFiled: August 21, 2018Publication date: September 17, 2020Inventors: Alfred Lell, Muhammad Ali, Bernhard Stojetz, Harald Koenig
-
Publication number: 20200259309Abstract: A light-emitting semiconductor component (99) comprising a laser bar (100) comprising at least two individual emitters (2), and a conversion element (300) arranged downstream of the laser bar (100) in the beam path, wherein at least some of the individual emitters (2) are arranged side by side in a lateral transverse direction (X), the laser bar (100) is formed with a nitride compound semiconductor material, the individual emitters (2) are configured to emit primary radiation (L1) during normal operation and the conversion element (300) is configured to convert at least part of the primary radiation (L1) into secondary radiation (L2), the secondary radiation (L2) having a longer wavelength than the primary radiation (L1).Type: ApplicationFiled: September 12, 2018Publication date: August 13, 2020Inventors: Alfred LELL, Muhammad ALI, Bernhard STOJETZ, Harald KÖNIG
-
Patent number: 10727645Abstract: A semiconductor light source is disclosed. In one embodiment, a semiconductor light source includes at least one semiconductor laser for generating a primary radiation and at least one conversion element for generating a longer-wave visible secondary radiation from the primary radiation, wherein the conversion element for generating the secondary radiation comprises a semiconductor layer sequence having one or more quantum well layers, and wherein, in operation, the primary radiation is irradiated into the semiconductor layer sequence perpendicular to a growth direction thereof, with a tolerance of at most 15°.Type: GrantFiled: March 13, 2017Date of Patent: July 28, 2020Assignee: OSRAM OLED GmbHInventors: Bernhard Stojetz, Alfred Lell, Christoph Eichler, Andreas Löffler
-
Publication number: 20200227893Abstract: An optoelectronic component includes a layer structure including an active zone that generates electromagnetic radiation, wherein the active zone is arranged in a plane, the layer structure includes a top side and four side faces, the first and third side faces are arranged opposite one another, the second and fourth side faces are arranged opposite one another, a strip-type ridge structure is arranged on the top side of the layer structure, the ridge structure extends between the first side face and the third side face, the first side face constitutes an emission face for electromagnetic radiation, a first recess is introduced into the top side of the layer structure laterally alongside the ridge structure, a second recess is introduced into the first recess, and the second recess extends as far as the second side face.Type: ApplicationFiled: March 30, 2020Publication date: July 16, 2020Inventors: Sven Gerhard, Alfred Lell, Clemens Vierheilig, Andreas Löffler
-
Patent number: 10693033Abstract: A semiconductor chip (100) is provided, having a first semiconductor layer (1), which has a lateral variation of a material composition along at least one direction of extent. Additionally provided is a method for producing a semiconductor chip (100).Type: GrantFiled: June 25, 2019Date of Patent: June 23, 2020Assignee: OSRAM OLED GMBHInventors: Alfred Lell, Andreas Löffler, Christoph Eichler, Bernhard Stojetz, André Somers
-
Publication number: 20200194957Abstract: A semiconductor laser diode is disclosed. In an embodiment a semiconductor laser diode includes a first resonator and a second resonator, the first and second resonators having parallel resonator directions along a longitudinal direction and being monolithically integrated into the semiconductor laser diode, wherein the first resonator includes at least a part of a semiconductor layer sequence having an active layer and an active region configured to be electrically pumped to generate a first light, wherein the longitudinal direction is parallel to a main extension plane of the active layer, and wherein the second resonator has an active region with a laser-active material configured to be optically pumped by at least a part of the first light to produce a second light which is partially emitted outwards from the second resonator.Type: ApplicationFiled: May 17, 2018Publication date: June 18, 2020Inventors: Bernhard Stojetz, Christoph Eichler, Alfred Lell, Sven Gerhard
-
Patent number: 10686296Abstract: An optoelectronic component includes a layer structure including an active zone that generates electromagnetic radiation, wherein the active zone is arranged in a plane, the layer structure includes a top side and four side faces, the first and third side faces are arranged opposite one another, the second and fourth side faces are arranged opposite one another, a strip-type ridge structure is arranged on the top side of the layer structure, the ridge structure extends between the first side face and the third side face, the first side face constitutes an emission face for electromagnetic radiation, a first recess is introduced into the top side of the layer structure laterally alongside the ridge structure, a second recess is introduced into the first recess, and the second recess extends as far as the second side face.Type: GrantFiled: September 29, 2016Date of Patent: June 16, 2020Assignee: OSRAM OLED GmbHInventors: Sven Gerhard, Alfred Lell, Clemens Vierheilig, Andreas Löffler