A semiconductor device includes an insulation substrate including a circuit pattern, semiconductor chips mounted on the circuit pattern, a wire connecting between the semiconductor chips and between the semiconductor chip and the circuit pattern, and a conductive material serving as a conductor formed integrally with the wire.

A power electronics submodule for mounting on a cooling device, has first and second surface sections next to one another, a substrate with a housing and includes a connection element, conductively connected by a contact to a track of the substrate and a connection section, arranged parallel to the substrate, the substrate arranged on the first surface section, the housing has a housing section, with a first main surface, arranged on the second surface section, and a second main surface, situated opposite the first main surface. In a non-mounted state a first main surface of the connection section is a first distance from the second main surface of the housing section in the housing region of a fastening device.

A semiconductor device includes first and second conductive parts, a first bonding wire connecting the first and second conductive parts and having a non-flat portion between opposite ends thereof so that a portion between the opposite ends is away from the first and second conductive parts, a case having a housing space to accommodate the first and second conductive parts, including a sidewall having first to fourth lateral faces surrounding the housing space to form a rectangular shape in a plan view, and a cover disposed on the sidewall, a sealing member filling the case to seal the first bonding wire, and a first stress relaxer for relieving a stress in the first bonding wire. The first bonding wire extends from the second lateral face toward the fourth lateral face, and the first stress relaxer is positioned between the first bonding wire and the first lateral face.

A semiconductor device includes first and second conductive parts, a first bonding wire connecting the first and second conductive parts and having a non-flat portion between opposite ends thereof so that a portion between the opposite ends is away from the first and second conductive parts, a case having a housing space to accommodate the first and second conductive parts, including a sidewall having first to fourth lateral faces surrounding the housing space to form a rectangular shape in a plan view, and a cover disposed on the sidewall, a sealing member filling the case to seal the first bonding wire, and a first stress relaxer for relieving a stress in the first bonding wire. The first bonding wire extends from the second lateral face toward the fourth lateral face, and the first stress relaxer is positioned between the first bonding wire and the first lateral face.

A semiconductor die includes a semiconductor body, and a multi-layer environmental barrier on the semiconductor body. The multi-layer environmental barrier includes a plurality of sublayers that are stacked on the semiconductor body. Each of the sublayers comprises a respective stress in one or more directions, where the respective stresses of at least two of the sublayers are different. The sublayers may include a first stressor sublayer comprising first stress, and a second stressor sublayer comprising a second stress that at least partially compensates for the first stress in the one or more directions. Related devices and methods of fabrication are also discussed.

An object is to provide a technique that can suppress wet-spreading of an adhesive used to bond a case and a metal base to each other and secure the height position of the adhesive required to fill a gap created between the case and the metal base. A semiconductor device includes a metal base, an insulating substrate arranged on the metal base, a semiconductor element mounted on the insulating substrate, and a case bonded on the metal base so as to surround side surfaces of the insulating substrate and the semiconductor element, in which a pair of metal oxide films having a protruding shape is provided on a peripheral edge portion of the metal base, and the case is bonded to the metal base by an adhesive arranged in a region between the metal oxide films in the pair.

An object is to provide a technique that can suppress wet-spreading of an adhesive used to bond a case and a metal base to each other and secure the height position of the adhesive required to fill a gap created between the case and the metal base. A semiconductor device includes a metal base, an insulating substrate arranged on the metal base, a semiconductor element mounted on the insulating substrate, and a case bonded on the metal base so as to surround side surfaces of the insulating substrate and the semiconductor element, in which a pair of metal oxide films having a protruding shape is provided on a peripheral edge portion of the metal base, and the case is bonded to the metal base by an adhesive arranged in a region between the metal oxide films in the pair.

An electronic component comprises a heat source component provided on a substrate; a case component covering the heat source component; a heat receiving component facing the case component; and a wall portion protruding from the heat receiving component, the wall portion configured to transfer heat indirectly transferred from the heat source component to the heat receiving component, wherein a heat release path of heat indirectly transferred from the heat source component to the wall portion includes a path away from the heat receiving component, the path extending in a wall portion direction toward the wall portion in a direction along a front surface of the heat receiving component.

Provided is a semiconductor module, including: a semiconductor chip including a semiconductor substrate and a metal electrode provided above the semiconductor substrate; a protective film provided above the metal electrode; a plated layer provided above the metal electrode, having at least a part being in a height identical to the protective film; a solder layer provided above the plated layer; and a lead frame provided above the solder layer, wherein the plated layer is provided in a range not in contact with the protective film.

Provided is a semiconductor module, including: a semiconductor chip including a semiconductor substrate and a metal electrode provided above the semiconductor substrate; a protective film provided above the metal electrode; a plated layer provided above the metal electrode, having at least a part being in a height identical to the protective film; a solder layer provided above the plated layer; and a lead frame provided above the solder layer, wherein the plated layer is provided in a range not in contact with the protective film.