摘要:
A lateral trench transistor has a semiconductor body having a source region, a source contact, a body region, a drain region, and a gate trench, in which a gate electrode which is isolated from the semiconductor body is embedded. A heavily doped semiconductor region is provided within the body region or adjacent to it, and is electrically connected to the source contact, and whose dopant type corresponds to that of the body region.
摘要:
A lateral trench transistor has a semiconductor body having a source region, a source contact, a body region, a drain region, and a gate trench, in which a gate electrode which is isolated from the semiconductor body is embedded. A heavily doped semiconductor region is provided within the body region or adjacent to it, and is electrically connected to the source contact, and whose dopant type corresponds to that of the body region.
摘要:
A semiconductor component is described. In one embodiment, the semiconductor component includes a semiconductor body with a first side and a second side. A drift zone is provided, which is arranged in the semiconductor body below the first side and extends in a first lateral direction of the semiconductor body between a first and a second doped terminal zone. At least one field electrode is provided, which is arranged in the drift zone, extends into the drift zone proceeding from the first side and is configured in a manner electrically insulated from the semiconductor body.
摘要:
A semiconductor component is described. In one embodiment, the semiconductor component includes a semiconductor body with a first side and a second side. A drift zone is provided, which is arranged in the semiconductor body below the first side and extends in a first lateral direction of the semiconductor body between a first and a second doped terminal zone. At least one field electrode is provided, which is arranged in the drift zone, extends into the drift zone proceeding from the first side and is configured in a manner electrically insulated from the semiconductor body.
摘要:
A semiconductor component is described. In one embodiment, the semiconductor component includes a semiconductor body with a first side and a second side. A drift zone is provided, which is arranged in the semiconductor body below the first side and extends in a first lateral direction of the semiconductor body between a first and a second doped terminal zone. At least one field electrode is provided, which is arranged in the drift zone, extends into the drift zone proceeding from the first side and is configured in a manner electrically insulated from the semiconductor body.
摘要:
A semiconductor device with inherent capacitances and method for its production. The semiconductor device has an inherent feedback capacitance between a control electrode and a first electrode. In addition, the semiconductor device has an inherent drain-source capacitance between the first electrode and a second electrode. At least one monolithically integrated additional capacitance is connected in parallel to the inherent feedback capacitance or in parallel to the inherent drain-source capacitance. The additional capacitance comprises a first capacitor surface and a second capacitor surface opposite the first capacitor surface. The capacitor surfaces are structured conductive layers of the semiconductor device on a front side of the semiconductor body, between which a dielectric layer is located and which form at least one additional capacitor.
摘要:
A semiconductor device with inherent capacitances and method for its production. The semiconductor device has an inherent feedback capacitance between a control electrode and a first electrode. In addition, the semiconductor device has an inherent drain-source capacitance between the first electrode and a second electrode. At least one monolithically integrated additional capacitance is connected in parallel to the inherent feedback capacitance or in parallel to the inherent drain-source capacitance. The additional capacitance comprises a first capacitor surface and a second capacitor surface opposite the first capacitor surface. The capacitor surfaces are structured conductive layers of the semiconductor device on a front side of the semiconductor body, between which a dielectric layer is located and which form at least one additional capacitor.
摘要:
A semiconductor device with a charge carrier compensation structure. In one embodiment, the semiconductor device has a central cell field with a gate and source structure. At least one bond contact area is electrically coupled to the gate structure or the source structure. A capacitance-increasing field plate is electrically coupled to at least one of the near-surface bond contact areas.
摘要:
A semiconductor device with a charge carrier compensation structure. In one embodiment, the semiconductor device has a central cell field with a gate and source structure. At least one bond contact area is electrically coupled to the gate structure or the source structure. A capacitance-increasing field plate is electrically coupled to at least one of the near-surface bond contact areas.
摘要:
The fabrication of a semiconductor component having a semiconductor body in which is arranged a very thin dielectric layer having sections which run in the vertical direction and which extend very deeply into the semiconductor body is disclosed. In one method a trench is formed in a drift zone region proceeding from the front side of a semiconductor body, a sacrificial layer is produced on at least a portion of the sidewalls of the trench and at least a portion of the trench is filled with a semiconductor material which is chosen such that the quotient of the net dopant charge of the semiconductor material in the trench and the total area of the sacrificial layer on the sidewalls of the trench between the semiconductor material and the drift zone region is less than the breakdown charge of the semiconductor material, and the sacrificial layer is replaced with a dielectric.