Patent application number | Description | Published |
20100051722 | VALVE UNIT FOR INTERRUPTING OR RELEASING A FLOW OF A MEDIUM ALONG A HOLLOW DUCT, USE THEREOF IN A DOSING SYSTEM FOR THE METERED DISCHARGE OF SAID MEDIUM, AND METHOD FOR THE METERED DISCHARGE OF A MEDIUM - A valve unit is disclosed for the interruption or release of a pressurized flow of a medium along a hollow duct, which flows along the hollow duct, as well as a preferred use of the valve unit in a dosing system and a method for the metered discharge of a medium from a cartridge-needle configuration, with a cartridge connected to the needle configuration via at least one hollow duct with an open cartridge end, to which a pressurizing means is applied, which is capable of driving the medium provided inside the cartridge in the direction of the needle configuration for discharge by applying pressure. The invention has at least in a section along the hollow duct in which at least one first magnet unit is mounted to be axially movable longitudinally along the flow direction of the medium through the hollow duct, for generating a first magnetic field, a second magnet unit providing second magnetic field interacting with the first magnetic field in such a way that a magnetic force which mutually attracts the magnet units axially acts between the first and the second magnet units, and a mechanical stop along the hollow duct, against which the first magnet unit is drivable using a retention force which may be generated by the magnetic force. | 03-04-2010 |
20110095217 | SOLENOID VALVE UNIT - A solenoid valve unit is described for shutting off or enabling a throughflow of a medium along a hollow duct, which flows under application of pressure along the hollow duct, having at least one first magnet unit which is fixedly arranged along the hollow duct, which is implemented in the form of a hollow cylinder and is arranged in an axial section along the hollow duct in such a way that the first magnet unit radially completely surrounds the hollow duct and has a flow opening, which is circular in cross-section, on its downstream end, as well as a second magnet unit, which is mounted so it is movable to the first unit and is implemented as a ball, whose ball diameter is greater than the flow opening diameter of the first magnet unit and which, on account of an attractive magnetic force prevailing between both magnet units, can be brought into indirect or direct contact with the first magnet unit and seals the hollow duct in a fluid-tight manner, while the medium loads the first magnet unit under application of pressure opposite to the action direction of the magnetic force. A contour surface, which is angled in relation to a plane defined by the flow opening and surrounds the flow opening, and along which the spherical second magnet unit can be deflected axially and radially relative to the flow opening, indirectly or directly adjoins the flow opening, which is circular in cross-section. | 04-28-2011 |
Patent application number | Description | Published |
20110289297 | INSTRUCTION SCHEDULING APPROACH TO IMPROVE PROCESSOR PERFORMANCE - A processor instruction scheduler comprising an optimization engine which uses an optimization model for a processor architecture with: means to generate an optimization model for the optimization engine from a design of a processor and data representing optimization goals and constraints and a code stream, wherein the processor has at least two execution pipes and at least two registers, and wherein the design comprises data for processor instruction latency and execution pipes, and wherein the code stream comprises processor instructions with corresponding register selections; and reordering means to generate an optimized code stream from the code stream with the optimal solution provided by the optimization engine for the optimization model by reordering the code stream, such that optimum values for the optimization goals under the given constraints are achieved without affecting the operation results of the code stream. | 11-24-2011 |
20120216016 | INSTRUCTION SCHEDULING APPROACH TO IMPROVE PROCESSOR PERFORMANCE - A processor instruction scheduler comprising an optimization engine which uses an optimization model for a processor architecture with: means to generate an optimization model for the optimization engine from a design of a processor and data representing optimization goals and constraints and a code stream, wherein the processor has at least two execution pipes and at least two registers, and wherein the design comprises data for processor instruction latency and execution pipes, and wherein the code stream comprises processor instructions with corresponding register selections; and reordering means to generate an optimized code stream from the code stream with the optimal solution provided by the optimization engine for the optimization model by reordering the code stream, such that optimum values for the optimization goals under the given constraints are achieved without affecting the operation results of the code stream. | 08-23-2012 |
20150127926 | INSTRUCTION SCHEDULING APPROACH TO IMPROVE PROCESSOR PERFORMANCE - A processor instruction scheduler comprising an optimization engine which uses an optimization model for a processor architecture with: means to generate an optimization model for the optimization engine from a design of a processor and data representing optimization goals and constraints and a code stream, wherein the processor has at least two execution pipes and at least two registers, and wherein the code stream comprises processor instructions with corresponding register selections; and reordering means to generate an optimized code stream from the code stream with the optimal solution provided by the optimization engine for the optimization model by reordering the code stream, such that optimum values for the optimization goals under the given constraints are achieved without affecting the operation results of the code stream. | 05-07-2015 |
Patent application number | Description | Published |
20100090207 | Electroluminescent Organic Semiconductor Element and a Method for Repair of an Electroluminescent Organic Semiconductor Element - An electroluminescent organic semiconductor element includes a substrate and a first electrode arranged on the substrate. The semiconductor element additionally contains a second electrode and at least one organic layer, which is arranged between the first electrode and the second electrode. The organic layer is a layer that generates light by recombination of charge carriers. At least one of the first and the second electrode contains a highly conductive organic sublayer. | 04-15-2010 |
20100314648 | Device Emitting Radiation and Method for the Production Thereof - A radiation-emitting device with a first electrode, a first emission layer, a second emission layer and a second electrode. The invention additionally relates to a method of producing a radiation-emitting device. | 12-16-2010 |
20110049730 | Device Comprising an Encapsulation Unit - A device in accordance with one embodiment comprises a component ( | 03-03-2011 |
20110114992 | Method for Producing an Electronic Component and Electronic Component - A method for producing an electronic component comprising barrier layers for the encapsulation of the component comprises, in particular, the following steps: providing a substrate ( | 05-19-2011 |
20110121354 | Method for Producing an Electronic Component and Electronic Component - A method for producing an electronic component comprising barrier layers for the encapsulation of the component comprises, in particular, the following steps: providing a substrate ( | 05-26-2011 |
20110260201 | Radiation-Emitting Device and Method for Producing a Radiation-Emitting Device - A radiation-emitting device is provided which comprises a substrate ( | 10-27-2011 |
20110266590 | Encapsulated Optoelectronic Component and Method for the Production Thereof - A method for encapsulating an optoelectronic component by depositing a diffusion barrier for protection against environmental influences by means of an atmospheric pressure plasma on at least one subarea of the surface of the optoelectronic component. | 11-03-2011 |
20120019131 | Organic Optoelectronic Component - An organic, optoelectronic component ( | 01-26-2012 |
20120119253 | Optoelectronic Component and Method for the Production Thereof - An optoelectronic component having a substrate ( | 05-17-2012 |
20120139001 | Method For Producing An Organic Optoelectronic Component And Organic Optoelectronic Component - Production of an organic optoelectronic component comprising the following steps: A) providing a first substrate ( | 06-07-2012 |
20120241802 | Method for Producing a Component with at Least One Organic Material and Component with at Least One Organic Material - In at least one embodiment of the component ( | 09-27-2012 |
20120256170 | Organic Component and Method for the Production Thereof - A device comprising: a first substrate ( | 10-11-2012 |
20120267147 | Method for Producing an Electronic Component and Electronic Component - A method for producing an electronic component with at least one first electrode zone ( | 10-25-2012 |
20120326178 | OPTOELECTRONIC COMPONENT AND METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT - An optoelectronic component includes at least one inorganic optoelectronically active semiconductor component having an active region that emits or receives light during operation, and a sealing material applied by atomic layer deposition on at least one surface region, the sealing material covering the surface region in a hermetically impermeable manner. | 12-27-2012 |
20130056718 | Electroluminescent Organic Semiconductor Element and a Method for Repair of an Electroluminescent Organic Semiconductor Element - An electroluminescent organic semiconductor element includes a substrate and a first electrode arranged on the substrate. The semiconductor element additionally contains a second electrode and at least one organic layer, which is arranged between the first electrode and the second electrode. The organic layer is a layer that generates light by recombination of charge carriers. At least one of the first and the second electrode contains a highly conductive organic sublayer. | 03-07-2013 |
20130313604 | Method for Producing a Light-Emitting Semiconductor Component and Light-Emitting Semiconductor Component - A method for producing a light-emitting semiconductor component is specified. A light-emitting semiconductor chip is arranged on a mounting area of a carrier. The semiconductor chip is electrically connected to electrical contact regions on the mounting area. An encapsulation layer is applied to the semiconductor chip by means of atomic layer deposition. All surfaces of the semiconductor chip which are free after mounting and electrical connection are covered with an encapsulation layer. Furthermore, a light-emitting semiconductor component is specified. | 11-28-2013 |
20140117345 | OPTOELECTRONIC COMPONENT AND METHOD FOR THE PRODUCTION THEREOF - An optoelectronic component having a substrate ( | 05-01-2014 |
20140117569 | DEVICE COMPRISING AN ENCAPSULATION UNIT - A device that includes a component and an encapsulation arrangement for the encapsulation of the component with respect to moisture and/or oxygen, wherein the encapsulation arrangement has a first layer and thereabove a second layer on at least one surface of the component, the first layer and the second layer each comprise an inorganic material, and the second layer is arranged directly on the first layer. | 05-01-2014 |
20140141549 | Method for Producing an Electronic Component and Electronic Component - A method for producing an electronic component comprising barrier layers for the encapsulation of the component comprises, in particular, the following steps: providing a substrate with at least one functional layer, applying at least one first barrier layer on the functional layer via plasma enhanced atomic layer deposition (PEALD), and applying at least one second barrier layer on the functional layer by means of plasma-enhanced chemical vapor deposition (PECVD), where the at least one first barrier layer is applied at a temperature of less than 100° C. | 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 |
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 |
20150028318 | Organic Optoelectronic Device and Method for Producing an Organic Optoelectronic Device - An organic optoelectronic device has a first substrate, on which a functional layer stack having at least one first electrode, thereabove an organic functional layer and thereabove a second electrode is arranged. A encapsulating arrangement includes a second substrate, on which a connecting material and at least one spacer facing the functional layer stack are applied. The connecting material is arranged between the first and second substrate and mechanically connects the first and second substrate together. The functional layer stack is enclosed by the connecting material in a frame-like manner. At least one of the first and second electrode includes at least one opening, above which the at least one spacer is arranged and which has a larger lateral dimension that the spacer. | 01-29-2015 |
20150072451 | Method for Producing an Electronic Component and Electronic Component - A method for producing an electronic component and an electronic component, having barrier layers for the encapsulation of the component. The method involves providing a substrate ( | 03-12-2015 |
20150129846 | ORGANIC LIGHT-EMITTING ELEMENT AND METHOD OF PRODUCING AN ORGANIC LIGHT-EMITTING ELEMENT - An organic light-emitting component includes a substrate on which a functional layer stack is applied, the stack including a first electrode, an organic functional layer stack thereover including an organic light-emitting layer and a translucent second electrode thereover, and a translucent halogen-containing thin-film encapsulation arrangement over the translucent second electrode, wherein a translucent protective layer having a refractive index of more than 1.6 is arranged directly on the translucent second electrode between the translucent second electrode and the thin-film encapsulation arrangement. | 05-14-2015 |