Stegner
Andre Stegner, Munich DE
Patent application number | Description | Published |
---|---|---|
20150214347 | Semiconductor Device Including Undulated Profile of Net Doping in a Drift Zone - A semiconductor device includes a semiconductor body having opposite first and second sides. The semiconductor device further includes a drift zone in the semiconductor body between the second side and a pn junction. A profile of net doping of the drift zone along at least 50% of a vertical extension of the drift zone between the first and second sides is undulated and includes doping peak values between 1×10 | 07-30-2015 |
20150318347 | Semiconductor Device with a Field Ring Edge Termination Structure and a Separation Trench Arranged Between Different Field Rings - A semiconductor device has a semiconductor body with bottom and top sides and a lateral surface. An active semiconductor region is formed in the semiconductor body and an edge region surrounds the active semiconductor region. A first semiconductor zone of a first conduction type is formed in the edge region. An edge termination structure having at least N field limiting structures is formed in the edge region. Each of the field limiting structures has a field ring and a separation trench formed in the semiconductor body, where N is at least 1. Each of the field rings has a second conduction type, forms a pn-junction with the first semiconductor zone and surrounds the active semiconductor region. For each of the field limiting structures, the separation trench of that field limiting structure is arranged between the field ring of that field limiting structure and the active semiconductor region. | 11-05-2015 |
Andre Rainer Stegner, Munchen DE
Patent application number | Description | Published |
---|---|---|
20140151789 | Semiconductor Device Including Trenches and Method of Manufacturing a Semiconductor Device - A semiconductor device includes a first transistor cell including a first gate electrode in a first trench. The semiconductor device further includes a second transistor cell including a second gate electrode in a second trench, wherein the first and second gate electrodes are electrically connected. The semiconductor device further includes a third trench between the first and second trenches, wherein the third trench extends deeper into a semiconductor body from a first side of the semiconductor body than the first and second trenches. The semiconductor device further includes a dielectric in the third trench covering a bottom side and walls of the third trench. | 06-05-2014 |
Andre Rainer Stegner, Munich DE
Patent application number | Description | Published |
---|---|---|
20160093706 | Method of Forming a Transistor, Method of Patterning a Substrate, and Transistor - A method of forming a transistor having a gate electrode includes forming a sacrificial layer over a semiconductor substrate, forming a patterning layer over the sacrificial layer, patterning the patterning layer to form patterned structures, forming spacers adjacent to sidewalls of the patterned structures, removing the patterned structures, etching through the sacrificial layer using the spacers as an etching mask and etching into the semiconductor substrate, thereby forming trenches in the semiconductor substrate, and filling a conductive material in the trenches in the semiconductor substrate to form the gate electrode. | 03-31-2016 |
André Rainer Stegner, Muenchen DE
Patent application number | Description | Published |
---|---|---|
20150340234 | METHOD FOR PROCESSING A SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A method for processing a semiconductor device in accordance with various embodiments may include: depositing a first metallization material over a semiconductor body; performing a heating process so as to form at least one region in the semiconductor body including a eutectic of the first metallization material and material of the semiconductor body; and depositing a second metallization material over the semiconductor body so as to contact the semiconductor body via the at least one region in the semiconductor body. | 11-26-2015 |
20160111528 | Semiconductor Device with Auxiliary Structure Including Deep Level Dopants - A semiconductor device includes transistor cells formed along a first surface at a front side of a semiconductor body in a transistor cell area. A drift zone structure forms first pn junctions with body zones of the transistor cells. An auxiliary structure between the drift zone structure and a second surface at a rear side of the semiconductor body includes a first portion that contains deep level dopants requiring at least 150 meV to ionize. A collector structure directly adjoins the auxiliary structure. An injection efficiency of minority carriers from the collector structure into the drift zone structure varies along a direction parallel to the first surface at least in the transistor cell area. | 04-21-2016 |
Daniela Stegner, Neustadt DE
Patent application number | Description | Published |
---|---|---|
20090015043 | Vehicle Seat Comprising an Air Conditioning Unit - The vehicle seat comprises an air conditioning unit associated with the seat pan and/or the backrest. The air conditioning unit comprises a fan, a flow channel and an air distribution element arranged on the upper face of the seat pan and/or backrest upholstery and connected to the fan via the flow channel. A fan receptacle and the flow channel are molded into the seat pan and/or into the backrest. | 01-15-2009 |
20110063530 | DISPLAY DEVICE IN A MOTOR VEHICLE - The invention relates to a display device in a motor vehicle, comprising an adjustable screen and adjustment kinematics associated with the screen. The adjustment kinematics comprise an adjustment drive having a drive motor for the screen, the screen being adjustable between a parking position and a functional position by means of the adjustment drive. The adjustment drive has a driver and is drive-coupled to the screen via the driver, a displacement guide being provided and the drive being guided by means of the displacement guide. The invention is characterized in that the adjustment drive and the displacement guide form a pre-assembled structural unit which as such can be coupled to the rest of the adjustment kinematics during final assembly. | 03-17-2011 |
Daniela Stegner, Coburg DE
Patent application number | Description | Published |
---|---|---|
20110247770 | Screen Adjustment Device for a Motor Vehicle - A screen adjustment device ( | 10-13-2011 |
Eric A. Stegner, Austin, TX US
Patent application number | Description | Published |
---|---|---|
20130197716 | REMOTELY STARTING INTERNAL COMBUSTION VEHICLE ENGINES SAFELY WITHIN VEHICLE ENCLOSURES - Enabling the remote engine starter user to address accidental start obstacles resulting from specific vehicle enclosure structures. Remotely starting an internal combustion engine with onboard computer control of a vehicle enclosed within a confined enclosure that comprises determining a set of safe distances for each of the front, rear and top of the vehicle, respectively, from the front, rear and top of the enclosure. Then, it is sensed whether all of the distances of the front, rear and top of the vehicle from the enclosure are respectively further than each of the set of safe distances. The remote starting of the engine of the vehicle is enabled only if at least one of the distances is further than it's safe distance. | 08-01-2013 |
Johann Stegner, Ruhstorf DE
Patent application number | Description | Published |
---|---|---|
20110278969 | ELECTRICAL MACHINE WITH MULTIPLE COOLING FLOWS AND COOLING METHOD - An electrical machine with a stator has a winding support, which has at least one radial cooling slot, and a rotor, which likewise has at least one radial cooling slot. The winding support of the stator has on its outer shell a number of axially running cooling ribs, along which an axially running first cooling flow can be directed. Furthermore, the rotor has axially running first cooling ducts, which open out into its at least one radial cooling slot, so that a second cooling flow can be directed in the axial direction along the axial cooling ribs of the stator through the axial first cooling ducts of the rotor, the at least one radial cooling slot of the rotor, the air gap between the rotor and the stator and the at least one radial cooling slot. In this way, the stator can be cooled by two different cooling flows. | 11-17-2011 |
Matthew Gehring Stegner, Seattle, WA US
Patent application number | Description | Published |
---|---|---|
20130129098 | AUTOMATIC RENDER GENERATION OF AN AUDIO SOURCE - An input indicates a request for rendering of an audio source in a clip of an audio track according to an effect. Further, a cloned audio source is generated. The cloned audio source is a copy of the audio source. A cloned effect is generated. The cloned effect is a copy of the effect. The cloned audio source is processed according to the cloned effect to generate a rendered output file. The rendered output file is played without processing the audio source according to the effect. | 05-23-2013 |
20130297051 | METHOD AND APPARATUS FOR PHASE COHERENT STRETCHING OF MEDIA CLIPS ON AN EDITING TIMELINE - Embodiments of the present invention generally relate to a method and apparatus for phase coherent stretching of audio clips on an editing timeline. The method comprising receiving a selection of a plurality of audio clips for stretching; determining a stretch ratio for the selection of audio clips based on a selection and repositioning one of a clip head or a clip tail of a selected one of the audio clips for stretching; and stretching each audio clip of the selection of audio clips by the stretch ratio, wherein during stretching, each selected audio clip remains synchronized with all other audio clips selected for stretching, by repositioning both of the clip head and the clip tail of each selected audio clip relative to the editing timeline, except for one clip head or clip tail which is not repositioned. | 11-07-2013 |
Robert W. Stegner, Austin, TX US
Patent application number | Description | Published |
---|---|---|
20130197716 | REMOTELY STARTING INTERNAL COMBUSTION VEHICLE ENGINES SAFELY WITHIN VEHICLE ENCLOSURES - Enabling the remote engine starter user to address accidental start obstacles resulting from specific vehicle enclosure structures. Remotely starting an internal combustion engine with onboard computer control of a vehicle enclosed within a confined enclosure that comprises determining a set of safe distances for each of the front, rear and top of the vehicle, respectively, from the front, rear and top of the enclosure. Then, it is sensed whether all of the distances of the front, rear and top of the vehicle from the enclosure are respectively further than each of the set of safe distances. The remote starting of the engine of the vehicle is enabled only if at least one of the distances is further than it's safe distance. | 08-01-2013 |