Hanberg
Anders Hanberg, Vasteras SE
Patent application number | Description | Published |
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20130227459 | METHOD AND SYSTEM FOR MONITORING AN INDUSTRIAL PROCESS - A method for monitoring an industrial process with a graphical user interface of an operator panel. The graphical user interface is adapted to change between a default mode in which it presents a plurality of objects related to the industrial process, and a user-adapted mode in which a subset of the plurality of objects is presented. The subset of objects is selected based on a parameter value which is associated with each object of the plurality of objects. The graphical user interface enters the user-adapted mode by the method determining whether a time of inactivity of the operator panel exceeds a threshold value, and, provided that the threshold value has been exceeded, removing those objects of the plurality of objects on the graphical user interface which are not included in the subset of objects. | 08-29-2013 |
20140078162 | Using OPC UA To Automatically Generate Process Graphics - A method and device for generating a set of graphical objects to be displayed by using OPC UA specification. The method includes indicating, by using OPC UA nodes, graphical objects to be displayed, the graphical objects representing physical components of a monitored process. Further, the method includes indicating, by using OPC UA references, how an indicated graphical object should be interconnected to another indicated graphical object when displayed. Next, the respective OPC UA node is associated with a corresponding predetermined graphical object, the set of graphical objects is generated from the associations and the individual graphical objects of the set is interconnected in accordance with the indicated interconnections. Finally, the generated set of graphical objects is displayed. | 03-20-2014 |
Peter Hanberg, Soborg DK
Patent application number | Description | Published |
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20110254034 | NANOSTRUCTURED LED - The device according to the invention comprises a nanostructured LED with a first group of nanowires protruding from a first area of a substrate and a contacting means in a second area of the substrate. Each nanowire of the first group of nanowires comprises a p-i-n junction and a top portion of each nanowire or at least one selection of nanowires is covered with a light-reflecting contact layer. The contacting means of the second area is in electrical contact with the bottom of the nanowires, the light-reflecting contact layer being in electrical contact with the contacting means of the second area via the p-i-n junction. Thus when a voltage is applied between the contacting means of the second area and the light-reflecting contact layer, light is generated within the nanowire. On top of the light-reflecting contact layer, a first group of contact pads for flip-chip bonding can be provided, distributed and separated to equalize the voltage across the layer to reduce the average serial resistance. | 10-20-2011 |
20140239327 | NANOSTRUCTURED LED - The device according to the invention comprises a nanostructured LED with a first group of nanowires protruding from a first area of a substrate and a contacting means in a second area of the substrate. Each nanowire of the first group of nanowires comprises a p-i-n-junction and a top portion of each nanowire or at least one selection of nanowires is covered with a light reflecting contact layer. The contacting means of the second area is in electrical contact with the bottom of the nanowires, the light-reflecting contact layer being in electrical contact with the contacting means of the second area via the p-i-n-junction. Thus when a voltage is applied between the contacting means of the second area and the light-reflecting contact layer, light is generated within the nanowire. On top of the light-reflecting contact layer, a first group of contact pads for flip-chip bonding can be provided, distributed and separated to equalize the voltage across the layer to reduce the average serial resistance. | 08-28-2014 |
Peter Jasper Hanberg, Soborg DK
Patent application number | Description | Published |
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20150333225 | NANOSTRUCTURED LED ARRAY WITH COLLIMATING REFLECTORS - The present invention relates to nanostructured light emitting diodes, LEDs. The nanostructure LED device according to the invention comprises an array of a plurality of individual nanostructured LEDs. Each of the nanostructured LEDs has an active region wherein light is produced. The nanostructured device further comprise a plurality of reflectors, each associated to one individual nanostructured LED (or a group of nanostructured LEDs. The individual reflectors has a concave surface facing the active region of the respective individual nanostructured LED or active regions of group of nanostructured LEDs. | 11-19-2015 |
Peter Jesper Hanberg, Soborg DK
Patent application number | Description | Published |
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20100283064 | NANOSTRUCTURED LED ARRAY WITH COLLIMATING REFLECTORS - The present invention relates to nanostructured light emitting diodes, LEDs. The nanostructured LED device according to the invention comprises an array of a plurality of individual nanostructured LEDs. Each of the nanostructured LEDs has an active region wherein light is produced. The nanostructured device further comprise a plurality of reflectors, each associated to one individual nanostructured LED (or a group of nanostructured LEDs. The individual reflectors has a concave surface facing the active region of the respective individual nanostructured LED or active regions of group of nanostructured LEDs. | 11-11-2010 |
20110240959 | NANOSTRUCTURED DEVICE - A nanostructured device according to the invention comprises a first group of nanowires protruding from a substrate where each nanowire of the first group of nanowires comprises at least one pn- or p-i-n-junction. A first contact, at least partially encloses and is electrically connected to a first side of the pn- or p-i-n-junction of each nanowire in the first group of nanowires. A second contacting means comprises a second group of nanowires that protrudes from the substrate, and is arranged to provide an electrical connection to a second side of the pn- or p-i-n-junction. | 10-06-2011 |
20140246650 | NANOSTRUCTURED DEVICE - A nanostructured device according to the invention comprises a first group of nanowires protruding from a substrate where each nanowire of the first group of nanowires comprises at least one pn- or p-i-n-junction. A first contact, at least partially encloses and is electrically connected to a first side of the pn- or p-i-n- junction of each nanowire in the first group of nanowires. A second contacting means comprises a second group of nanowires that protrudes from the substrate, and is arranged to provide an electrical connection to a second side of the pn- or p-i-n-junction. | 09-04-2014 |