Patent application number | Description | Published |
20100258892 | Radiation Receiver and Method of Producing a Radiation Receiver - A radiation receiver has a semiconductor body including a first active region and a second active region, which are provided in each case for detecting radiation. The first active region and the second active region are spaced vertically from one another. A tunnel region is arranged between the first active region and the second active region. The tunnel region is connected electrically conductively with a land, which is provided between the first active region and the second active region for external electrical contacting of the semiconductor body. A method of producing a radiation receiver is additionally indicated. | 10-14-2010 |
20110316028 | Optoelectronic Semiconductor Component - An optoelectronic semiconductor component comprising a semiconductor layer sequence ( | 12-29-2011 |
20120298951 | Optoelectronic Semiconductor Body with a Quantum Well Structure - An optoelectronic semiconductor body is provided, which contains a semiconductor material which is composed of a first component and a second component different from the first component. The semiconductor body comprises a quantum well structure, which is arranged between an n-conducting layer ( | 11-29-2012 |
20120298964 | Light-Emitting Semiconductor Chip - A semiconductor chip includes a semiconductor body with a semiconductor layer sequence. An active region intended for generating radiation is arranged between an n-conductive multilayer structure and a p-conductive semiconductor layer. A doping profile is formed in the n-conductive multilayer structure which includes at least one doping peak. | 11-29-2012 |
20120319126 | Optoelectronic Semiconductor Chip and Method for Fabrication Thereof - An optoelectronic semiconductor chip has a first semiconductor layer sequence which comprises a multiplicity of microdiodes, and a second semiconductor layer sequence which comprises an active region the first semiconductor layer sequence and the second semiconductor layer sequence are based on a nitride compound semiconductor material, the first semiconductor layer sequence is before the first semiconductor layer sequence in the direction of growth, and the microdiodes form an ESD protection for the active region. | 12-20-2012 |
20140057417 | Method for Producing an Optoelectronic Semiconductor Chip - A method for producing an optoelectronic semiconductor chip is disclosed. A growth substrate is provided in an epitaxy installation. At least one intermediate layer is deposited by epitaxy on the growth substrate. A structured surface that faces away from the growth substrate is produced on the side of the intermediate layer facing away from the growth substrate. An active layer is deposited by epitaxy on the structured surface. The structured surface is produced in the epitaxy installation and the active layer follows the structuring of the structured surface at least in some regions in a conformal manner or at least in some sections essentially in a conformal manner. | 02-27-2014 |
20140061694 | Method for Producing a Thin-Film Semiconductor Body and Thin-Film Semiconductor Body - A method for producing a thin-film semiconductor body is provided. A growth substrate is provided. A semiconductor layer with funnel-shaped and/or inverted pyramid-shaped recesses is epitaxially grown onto the growth substrate. The recesses are filled with a semiconductor material in such a way that pyramid-shaped outcoupling structures arise. A semiconductor layer sequence with an active layer is applied on the outcoupled structures. The active layer is suitable for generating electromagnetic radiation. A carrier is applied onto the semiconductor layer sequence. At least the semiconductor layer with the funnel-shaped and/or inverted pyramid-shaped recesses is detached, such that the pyramid-shaped outcoupling structures are configured as projections on a radiation exit face of the thin-film semiconductor body. | 03-06-2014 |
20140183594 | RADIATION-EMITTING SEMICONDUCTOR CHIP HAVING INTEGRATED ESD PROTECTION - A radiation-emitting semiconductor chip having a semiconductor layer sequence based on a nitride compound semiconductor material and having a pn junction includes a first protective layer having deliberately introduced crystal defects, a second protective layer having a higher doping than the first protective layer, wherein the first protective layer protects the semiconductor chip against electrostatic discharge pulses, an active zone that generates radiation disposed downstream of the first protective layer in a growth direction, wherein during operation of the semiconductor chip, a breakdown behavior of the semiconductor layer sequence in a reverse direction in regions having crystal defects differs from regions without crystal defects, and wherein in the event of electrostatic discharge pulses, electrical charge is dissipated in a homogeneously distributed manner via the regions having crystal defects. | 07-03-2014 |