Patent application number | Description | Published |
20080203407 | Method for producing an optoelectronic semiconductor chip, and optoelectronic semiconductor chip - A method for producing an optoelectronic semiconductor chip based on a nitride semiconductor system is specified. The method comprises the steps of: forming a semiconductor section with at least one p-doped region; and forming a covering layer disposed downstream of the semiconductor section in a growth direction of the semiconductor chip, said covering layer having at least one n-doped semiconductor layer. An activation step suitable for electrically activating the p-doped region is effected before or during the formation of the covering layer. An optoelectronic semiconductor chip which can be produced by the method is additionally specified. | 08-28-2008 |
20090090900 | Optoelectronic Semiconductor Chip - An optoelectronic semiconductor chip comprises the following sequence of regions in a growth direction (c) of the semiconductor chip ( | 04-09-2009 |
20110101390 | Monolithic, Optoelectronic Semiconductor Body and Method for the Production Thereof - An optoelectronic semiconductor body comprises a semiconductor layer sequence which is subdivided into at least two electrically isolated subsegments. The semiconductor layer sequence has an active layer in each subarea. Furthermore, at least three electrical contact pads are provided. A first line level makes contact with a first of the at least two subsegments and with the first contact pad. A second line level makes contact with the second of the at least two subsegments and with a second contact pad. A third line level connects the two subsegments to one another and makes contact with the third contact pad. Furthermore, the line levels are each arranged opposite a first main face, wherein the first main face is intended to emit electromagnetic radiation that is produced. | 05-05-2011 |
20110104836 | METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT AND OPTOELECTRONIC COMPONENT - In a method for producing an optoelectronic component, a growth substrate having a first coefficient of thermal expansion is provided. A multilayered buffer layer sequence is applied thereto. A layer sequence having a second coefficient of thermal expansion—different than the first coefficient of thermal expansion—is subsequently deposited epitaxially. It furthermore comprises an active layer for emitting electromagnetic radiation. A carrier substrate is subsequently applied on the epitaxially deposited layer sequence. The growth substrate is removed and the multilayered buffer layer sequence is structured in order to increase a coupling-out of electromagnetic radiation. Finally, contact is made with the epitaxially deposited layer sequence. | 05-05-2011 |
20110241031 | OPTOELECTRONIC PROJECTION DEVICE - An optoelectronic projection device which generates a predefined image during operation, including a semiconductor body having an active layer that generates electromagnetic radiation and a radiation exit side and is an imaging element of the projection device, wherein, to electrically contact the semiconductor body, a first contact layer and a second contact layer are arranged at a rear side of the semiconductor body, the rear side lying opposite the radiation exit side, and are electrically insulated from one another by a separating layer. | 10-06-2011 |
20120299049 | Optoelectronic Semiconductor Chip and Method for Adapting a Contact Structure for Electrically Contacting an Optoelectronic Semiconductor Chip - An optoelectronic semiconductor chip has a first semiconductor functional region with a first terminal and a second terminal. A contact structure electrically contacts the optoelectronic semiconductor chip. The contact structure is connected electrically conductively to the first semiconductor functional region. The contact structure has a disconnectable conductor structure. An operating current path is established via the first terminal of the first semiconductor functional region and the second terminal if the conductor structure is not disconnected. This path is interrupted if the conductor structure is disconnected. Alternatively, an operating current path is established via the first terminal of the first semiconductor functional region and the second terminal if the conductor structure is disconnected. The conductor structure connects the first terminal to the second terminal and short circuits the first semiconductor functional region if the conductor structure is not disconnected. | 11-29-2012 |
20120322186 | METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT AND OPTOELECTRONIC COMPONENT - In a method for producing an optoelectronic component, a growth substrate having a first coefficient of thermal expansion is provided. A multilayered buffer layer sequence is applied thereto. A layer sequence having a second coefficient of thermal expansion—different than the first coefficient of thermal expansion—is subsequently deposited epitaxially. It furthermore comprises an active layer for emitting electromagnetic radiation. A carrier substrate is subsequently applied on the epitaxially deposited layer sequence. The growth substrate is removed and the multilayered buffer layer sequence is structured in order to increase a coupling-out of electromagnetic radiation. Finally, contact is made with the epitaxially deposited layer sequence. | 12-20-2012 |
20130140598 | METHOD FOR PRODUCING AN OPTOELECTRONIC SEMICONDUCTOR CHIP, AND OPTOELECTRONIC SEMICONDUCTOR CHIP - A method for producing an optoelectronic semiconductor chip is specified, comprising the following steps: providing an n-conducting layer ( | 06-06-2013 |
20130187183 | LIGHT-EMITTING DIODE CHIP - A light-emitting diode chip is specified, comprising
| 07-25-2013 |
20130193450 | OPTOELECTRONIC SEMICONDUCTOR CHIP AND METHOD FOR PRODUCING SAME - An optoelectronic semiconductor chip includes a semiconductor layer stack and a radiation exit face or radiation entrance face, wherein the semiconductor layer stack includes an active layer that generates or receives electromagnetic radiation, and a plurality of nanostructures arranged in the semiconductor layer stack and/or on the radiation exit or entrance face, at least some of the nanostructures including at least one substructure. | 08-01-2013 |
20130207154 | OPTOELECTRONIC COMPONENT - An optoelectronic component has a semiconductor body including an epitaxial layer sequence, and a carrier substrate consisting of a semiconductor material connected to the semiconductor body by a solder layer, and through-connections. The carrier substrate includes a surface doping zone extending along a first main surface facing the semiconductor body. The surface doping zone includes a p-conductive region and an n-conductive region adjacent thereto, between which regions a pn-junction is formed. The n-conductive region electrically connects to a p-doped region of the epitaxial layer sequence via a first sub-region of the solder layer, and the p-conductive region electrically connects to an n-doped region of the epitaxial layer sequence via a second sub-region of the solder layer. | 08-15-2013 |
20130228798 | LIGHT-EMITTING DIODE CHIP AND METHOD FOR PRODUCING THE SAME - A light-emitting diode chip is specified, comprising
| 09-05-2013 |
20130229793 | LIGHTING APPARATUS - What is specified is: a lighting apparatus, with a piezoelectric transformer ( | 09-05-2013 |
20130292735 | SUPPORT FOR AN OPTOELECTRONIC SEMICONDUCTOR CHIP, AND SEMICONDUCTOR CHIP - A support for an optoelectronic semiconductor chip includes a support body with a first main face and a second main face opposite the first main face, at least one electrical plated-through hole extending from the first main face to the second main face and formed in the support body, and an insulating layer arranged on the first main face, the insulation layer covering the electrical plated-through hole only in regions. | 11-07-2013 |
20140145227 | LIGHT-EMITTING DIODE CHIP - A light-emitting diode chip includes a semiconductor body including a radiation-generating active region, at least two contact locations electrically contacting the active region, a carrier and a connecting medium arranged between the carrier and the semiconductor body, wherein the semiconductor body includes roughening on outer surfaces facing the carrier, the semiconductor body mechanically connects to the carrier by the connecting medium, the connecting medium locally directly contacts the semiconductor body and the carrier, and the at least two contact locations are arranged on the upper side of the semiconductor body facing away from the carrier. | 05-29-2014 |
20140145610 | LIGHT-EMITTING DIODE ARRANGEMENT HAVING A PIEZO TRANSFORMER - A light-emitting diode arrangement has a frame-shaped piezo transformer having at least one output-side connection, and having a light-emitting diode module that generates electromagnetic radiation, which module is disposed within the frame-shaped piezo transformer and electrically connects to the output-side connection of the piezo transformer by at least one output-side electrical conductor, wherein radiation emitted by the light-emitting diode module in the direction of the piezo transformer is reflected, at the latter. | 05-29-2014 |
20140295589 | OPTOELECTRONIC COMPONENT AND METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT - An optoelectronic component includes a semiconductor layer sequence having an optoelectronically active region; a dielectric layer on the semiconductor layer sequence; and a metal layer on the dielectric layer, wherein an adhesion layer is arranged between the dielectric layer and the metal layer, the adhesion layer being covalently bonded to the dielectric layer and to the metal layer. | 10-02-2014 |