Patent application number | Description | Published |
20080290466 | Semiconductor Element - A semiconductor element includes a semiconductor layer having a first doping density, a metallization, and a contact area located between the semiconductor layer and the metallization. The contact area includes at least one first semiconductor area that has a second doping density higher than the first doping density, and at least one second semiconductor area in the semiconductor layer. The second semiconductor area is in contact with the metallization and provides lower ohmic resistance to the metallization than a direct contact between the semiconductor layer and the metallization provides or would provide. | 11-27-2008 |
20090186462 | Semiconductor device and Fabrication method - A semiconductor device in one embodiment has a first connection region, a second connection region and a semiconductor volume arranged between the first and second connection regions. Provision is made, within the semiconductor volume, in the vicinity of the second connection region, of a field stop zone for spatially delimiting a space charge zone that can be formed in the semiconductor volume, and of an anode region adjoining the first connection region. The dopant concentration profile within the semiconductor volume is configured such that the integral of the ionized dopant charge over the semiconductor volume, proceeding from an interface of the anode region which faces the second connection region, in the direction of the second connection region, reaches a quantity of charge corresponding to the breakdown charge of the semiconductor device only near the interface of the field stop zone which faces the second connection region. | 07-23-2009 |
20110275202 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD - A semiconductor device in one embodiment has a first connection region, a second connection region and a semiconductor volume arranged between the first and second connection regions. Provision is made, within the semiconductor volume, in the vicinity of the second connection region, of a field stop zone for spatially delimiting a space charge zone that can be formed in the semiconductor volume, and of an anode region adjoining the first connection region. The dopant concentration profile within the semiconductor volume is configured such that the integral of the ionized dopant charge over the semiconductor volume, proceeding from an interface of the anode region which faces the second connection region, in the direction of the second connection region, reaches a quantity of charge corresponding to the breakdown charge of the semiconductor device only near the interface of the field stop zone which faces the second connection region. | 11-10-2011 |
20120202332 | ROBUST SEMICONDUCTOR DEVICE - A method for producing a semiconductor component structure in a semiconductor body. In one embodiment, the method includes producing two differently doped semiconductor zones of the same conduction type, and carrying out a first implantation, implanting dopant atoms of a first conduction type into the semiconductor body via one of the sides over the whole area. A mask is produced on the one side, partly leaving free the one side. A second implantation is carried out, implanting dopant atoms of the first conduction type into the region left free by the mask proceeding from the one of the sides. | 08-09-2012 |
20120315747 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD - A semiconductor device in one embodiment has a first connection region, a second connection region and a semiconductor volume arranged between the first and second connection regions. Provision is made, within the semiconductor volume, in the vicinity of the second connection region, of a field stop zone for spatially delimiting a space charge zone that can be formed in the semiconductor volume, and of an anode region adjoining the first connection region. The dopant concentration profile within the semiconductor volume is configured such that the integral of the ionized dopant charge over the semiconductor volume, proceeding from an interface of the anode region which faces the second connection region, in the direction of the second connection region, reaches a quantity of charge corresponding to the breakdown charge of the semiconductor device only near the interface of the field stop zone which faces the second connection region. | 12-13-2012 |
20150076597 | SEMICONDUCTOR COMPONENT HAVING A PASSIVATION LAYER AND PRODUCTION METHOD - A semiconductor component and a method for producing a semiconductor component are described. The semiconductor component includes a semiconductor body including an inner zone and an edge zone, and a passivation layer, which is arranged at least on a surface of the semiconductor body adjoining the edge zone. The passivation layer includes a semiconductor oxide and that includes a defect region having crystal defects that serve as getter centers for contaminations. | 03-19-2015 |
20150263106 | SEMICONDUCTOR COMPONENT AND INTEGRATED CIRCUIT - A semiconductor component includes an element composed of a conductive material, which is arranged above a surface of a semiconductor substrate. The element includes an element region not adjoined by any electrical contacts to an overlying or underlying electrically conductive plane. In this case, a surface of the element facing away from the semiconductor substrate is patterned with elevations or depressions and a surface of the element region facing the semiconductor substrate is patterned to a lesser extent or is not patterned. | 09-17-2015 |
20150303260 | Vertical Semiconductor Device - A semiconductor body includes first and second opposing surfaces, an edge extending in a vertical direction substantially perpendicular to the first surface, an active area, a peripheral area arranged in a horizontal direction substantially parallel to the first surface between the active area and edge, and a pn-junction extending from the active area into the peripheral area. In the peripheral area the semiconductor device further includes a first conductive region arranged next to the first surface, a second conductive region arranged next to the first surface, and arranged in the horizontal direction between the first conductive region and edge, and a passivation structure including a first portion at least partly covering the first conductive region, a second portion at least partly covering the second conductive region. The first portion has a different layer composition than the second portion and/or a thickness which differs from the thickness of the second portion. | 10-22-2015 |