Patent application number | Description | Published |
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 |
20090267200 | METHOD FOR MANUFACTURING A SEMICONDUCTOR SUBSTRATE INCLUDING LASER ANNEALING - A method for manufacturing a semiconductor device by laser annealing. One embodiment provides a semiconductor substrate having a first surface and a second surface. The second surface is arranged opposite to the first surface. A first dopant is introduced into the semiconductor substrate at the second surface such that its peak doping concentration in the semiconductor substrate is located at a first depth with respect to the second surface. A second dopant is introduced into the semiconductor surface at the second surface such that its peak doping concentration in the semiconductor substrate is located at a second depth with respect to the second surface, wherein the first depth is larger than the second depth. At least a first laser anneal is performed by directing at least one laser beam pulse onto the second surface to melt the semiconductor substrate, at least in sections, at the second surface. | 10-29-2009 |
20100087053 | METHOD FOR FABRICATING A SEMICONDUCTOR HAVING A GRADED PN JUNCTION - A method for fabricating a semiconductor body is presented. The semiconductor body includes a p-conducting zone, an n-conducting zone and a pn junction in a depth T | 04-08-2010 |
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 |
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 |
20130320487 | Semiconductor Device with Trench Structures - A semiconductor body of a semiconductor device includes a doped layer of a first conductivity type and one or more doped zones of a second conductivity type. The one or more doped zones are formed between the doped layer and the first surface of a semiconductor body. Trench structures extend from one of the first and the second opposing surface into the semiconductor body. The trench structures are arranged between portions of the semiconductor body which are electrically connected to each other. The trench structures may be arranged for mitigating mechanical stress, locally controlling charge carrier mobility, locally controlling a charge carrier recombination rate and/or shaping buried diffusion zones. | 12-05-2013 |
20140015007 | Semiconductor Device with Charge Carrier Lifetime Reduction Means - A semiconductor device includes a cell region having at least one device cell, wherein the at least one device cell includes a first device region of a first conductivity type. The semiconductor device further includes a drift region of a second conductivity type adjoining the first device region of the at least one device cell, a doped region of the first conductivity type adjoining the drift region, and charge carrier lifetime reduction means configured to reduce a charge carrier lifetime in the doped region of the first conductivity type. | 01-16-2014 |
20140306347 | Semiconductor Device with an Insulation Layer Having a Varying Thickness - A layer with a laterally varying thickness, a substrate with a first surface and an insulation layer formed on the first surface of the substrate is provided. A plurality of at least one of recesses and openings is formed in the insulation layer, wherein the plurality is arranged at a pitch. Each of the at least one of recesses and openings has a lateral width, wherein at least one of the pitch and the lateral width varies in a lateral direction. The plurality of the at least one of recesses and openings defines a given region in the insulation layer. The insulation layer having the plurality of the at least one of the recesses and openings is tempered at elevated temperatures so that the insulation layer at least partially diffluences to provide the insulation layer with a laterally varying thickness at least in the given region. | 10-16-2014 |
20150041963 | Semiconductor Device Having a Surface with Ripples - According to one embodiment of a semiconductor device, the semiconductor device includes a semiconductor substrate having a first surface, an insulation layer having a laterally varying thickness on the first surface, and a metal layer on the first surface. The insulation layer has ripples in its surface facing the metal layer. According to another embodiment of a semiconductor device, the semiconductor device includes a semiconductor substrate having a first surface and including at least one of a laterally varying thickness and an inclined first surface. The first surface of the semiconductor substrate has ripples. | 02-12-2015 |