Patent application number | Description | Published |
20110163659 | Radiation-Emitting Arrangement - A radiation-emitting arrangement comprises, in particular, a carrier element ( | 07-07-2011 |
20110198657 | Organic Light-Emitting Diode, Contact Arrangement and Method for Producing an Organic Light-Emitting Diode - An organic light-emitting diode ( | 08-18-2011 |
20120132953 | Thin-Layer Encapsulation for an Optoelectronic Component, Method for the Production Thereof, and Optoelectronic Component - A thin-layer encapsulation ( | 05-31-2012 |
20120175668 | Electronic Component and Electrical Contact - An electronic component ( | 07-12-2012 |
20130009199 | Organic Light-Emitting Device Having Homogenous Brightness Distribution - An organic light-emitting device comprising an active layer for producing radiation having a first side surface and a second side surface adjoining a corner edge. A first contact strip extends along the first side surface for injecting charge carriers of a first type into the active layer. A second contact strip extends along the second side surface for injecting charge carriers of a second type into the active layer. The first side surface has a recessed region adjoining the corner edge, and the injection of charge carriers from the first contact strip is suppressed in the recessed region. | 01-10-2013 |
20130292655 | Method for producing an electronic component and electronic component - A method for producing an electronic component may include: applying an electrode growth layer on or above a layer structure by means of an atomic layer deposition method; and applying an electrode on the electrode growth layer, wherein the electrode growth layer is applied with a layer thickness in a range of approximately 1.5 nm to approximately 28 nm. | 11-07-2013 |
20130334519 | Organic Light-Emitting Component and Use of a Copper Complex in a Charge Transport Layer - An organic light-emitting component has an active layer for emitting electromagnetic radiation. It also has an anode and an organic charge transport layer, arranged between the active layer and the anode, for transporting charge carriers from the anode to the active layer. The anode can be used to decouple electromagnetic radiation emitted by the active layer from the organic light-emitting component. The organic charge transport layer comprises a copper complex which has at least one ligand with the chemical structure as per a formula I. | 12-19-2013 |
20140077201 | OPTOELECTRONIC COMPONENT AND METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT - An optoelectronic component may include: at least one layer of the optoelectronic component; at least one adhesive on the layer of the optoelectronic component; and a cover on the at least one adhesive; wherein the at least one adhesive is cured only in a partial region above at least one of a substrate and the layer. | 03-20-2014 |
20140138662 | LIGHT-EMITTING COMPONENTS AND METHOD FOR PRODUCING A LIGHT-EMITTING COMPONENT - A light-emitting component may include: a first electrode; an organic electroluminescent layer structure on or over the first electrode; a second translucent electrode on or over the organic electroluminescent layer structure; and a mirror layer structure on or over the second electrode, wherein the mirror layer structure has a lateral thermal conductance of at least 1*10 | 05-22-2014 |
20140246665 | Encapsulation for an Organic Electronic Device - An organic electronic device and a method of making an organic electronic device are provided. An embodiment of an electronic device includes a substrate, an active layer disposed on the substrate and a thin-layer encapsulation disposed on the active layer. The device further includes a first adhesive layer disposed on the thin-layer encapsulation, wherein the first adhesive layer comprises a getter material and a covering layer disposed on the first adhesive layer. | 09-04-2014 |
20140252406 | ENCAPSULATION STRUCTURE FOR AN OPTO-ELECTRONIC COMPONENT, AND METHOD FOR ENCAPSULATING AN OPTOELECTRONIC COMPONENT - An encapsulation structure for an optoelectronic component, may include: a thin-film encapsulation for protecting the optoelectronic component against chemical impurities; an adhesive layer formed on the thin-film encapsulation; and a cover layer formed on the adhesive layer and serving for protecting the thin-film encapsulation and/or the optoelectronic component against mechanical damage, wherein the adhesive layer is formed such that particle impurities situated at the surface of the thin-film encapsulation are at least partly enclosed by the adhesive layer. | 09-11-2014 |
20140264311 | LIGHT-EMITTING COMPONENT AND METHOD FOR PRODUCING A LIGHT-EMITTING COMPONENT - A light-emitting component may include: an electrically active region, including a first electrode, a second electrode, an organic functional layer structure between the first electrode and the second electrode, a cover arranged above the electrically active region, and a layer structure arranged between the cover and the electrically active region. The component may have at least one layer having a refractive index which is less than the refractive index of the cover. | 09-18-2014 |
20140319482 | LIGHT-EMITTING COMPONENT AND METHOD FOR PRODUCING A LIGHT-EMITTING COMPONENT - A light-emitting component may include: a first electrode; an organic electroluminescent layer structure on or above the first electrode; a second translucent electrode on or above the organic electroluminescent layer structure; an optically translucent layer structure on or above the second electrode, wherein the optically translucent layer structure includes photoluminescence material; and a mirror layer structure on or above the optically translucent layer structure. | 10-30-2014 |
20140362567 | Luminaire for General Lighting - A luminaire for general lighting includes an illuminant having a first light emission surface and a second light emission surface. The illuminant includes an organic, light-generating region. The first light emission surface and the second light emission surface are arranged at two mutually opposite main surfaces of the illuminant. A first light emerges at the first light emission surface during the operation of the illuminant, and a second light emerges at the second light emission surface during the operation of the illuminant. The first light and the second light differ from one another with regard to color and/or color temperature. The first light and the second light leave the luminaire in mutually different emission directions. | 12-11-2014 |
20150027541 | ELECTRONIC COMPONENT WITH MOISTURE BARRIER LAYER - Various embodiments may relate to an electronic component including a layer to be protected against moisture, and a moisture barrier layer arranged at least partly on or above and/or below the layer to be protected. The moisture bather layer includes a plurality of layers composed of the same material having different stoichiometric compositions. | 01-29-2015 |
20150028312 | OPTOELECTRONIC COMPONENT, METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT, DEVICE FOR SEPARATING A ROOM, AND PIECE OF FURNITURE - Various embodiments relate to an optoelectronic component, including a first electrode layer, a first organic functional layer structure on or over the first electrode layer, a nontransparent second electrode layer on or over the first organic functional layer structure, a second organic functional layer structure on or over the second electrode layer, and a third electrode layer on or over the second organic functional layer structure. The material for the second electrode layer is selected in such a way that a matt impression of at least one side of the optoelectronic component is imparted. | 01-29-2015 |
Patent application number | Description | Published |
20080243347 | Method and Device for Operating a Drive System - In a first operating mode, as a function of the determined torque request value at least one first final control element is actuated influencing an air path of an engine. Representative of an actual basic torque value, a specific engine characteristic value is determined as a function of which, a filter parameter value is determined such that a torque setpoint value is brought closer to the actual basic torque value. The filter parameter value is saved assigned to the specific characteristic value. In a second operating mode, the filter parameter value is determined as a function of the specific characteristic value and the setpoint torque value is predefined by filtering the driver-requested torque value as a function of the determined parameter value. As a function of the predefined setpoint torque value, at least one second final control element is actuated which influences the drive system torque outside the air path. | 10-02-2008 |
20130255639 | Method for Operating an Internal Combustion Engine with Assistance from an Electric Machine, and Internal Combustion Engine - A method for operating an internal combustion engine is disclosed, in which method test injections are carried out in order to adapt, during the operation of the internal combustion engine, the injection parameters used for the control of the injection processes. For this purpose, during the test injections, an electric machine which is coupled to the internal combustion engine generates negative torque impulses in a manner synchronized with the positive torque impulses generated by the test injections, which negative torque impulses counteract the torque impulses generated by the test injections. In this way, rotational speed oscillations generated by the test injections are eliminated. Also described is an internal combustion engine of said type. | 10-03-2013 |
20140080662 | Method For Operating A Hybrid Vehicle And Hybrid Vehicle - A method for operating a hybrid vehicle and a hybrid vehicle are disclosed. The hybrid vehicle includes a supercharged internal combustion engine having an overboost function and at least one electric drive. An overboost phase of the supercharger of the internal combustion engine is followed by a regeneration phase of the supercharger and a corresponding drop in torque, wherein the at least one electric drive is used to at least partially compensate for the drop in torque of the internal combustion engine during the overboost regeneration phase of the supercharger. Thus, an improved driving behavior with an extended overboost phase can be achieved. | 03-20-2014 |