An organic interposer includes: a first organic insulating layer including a groove; a first metal wire located in the groove; a barrier metal material covering the first metal wire; and a second metal wire located above the first metal wire, wherein the barrier metal material includes: a first barrier metal film interposed between the first metal wire and an inner surface of the groove; and a second barrier metal film located on the first metal wire, and wherein the second metal wire is in contact with both of the first barrier metal film and the second barrier metal film.

An apparatus is provided which comprises: a die comprising an integrated circuit, a first material layer comprising a first metal, the first material layer on a surface of the die, and extending at least between opposite lateral sides of the die, a second material layer comprising a second metal over the first material layer, and a third material layer comprising silver particles and having a porosity greater than that of the second material layer, the third material layer between the first material layer and the second material layer. Other embodiments are also disclosed and claimed.

A method of forming a semiconductor device includes applying an adhesive material in a first region of an upper surface of a substrate, where applying the adhesive material includes: applying a first adhesive material at first locations of the first region; and applying a second adhesive material at second locations of the first region, the second adhesive material having a different material composition from the first adhesive material. The method further includes attaching a ring to the upper surface of the substrate using the adhesive material applied on the upper surface of the substrate, where the adhesive material is between the ring and the substrate after the ring is attached.

A method of forming a semiconductor device includes applying an adhesive material in a first region of an upper surface of a substrate, where applying the adhesive material includes: applying a first adhesive material at first locations of the first region; and applying a second adhesive material at second locations of the first region, the second adhesive material having a different material composition from the first adhesive material. The method further includes attaching a ring to the upper surface of the substrate using the adhesive material applied on the upper surface of the substrate, where the adhesive material is between the ring and the substrate after the ring is attached.

A semiconductor device includes a substrate, a semiconductor chip, a resin, and a terminal. The substrate spreads along a first surface. The semiconductor chip is provided above the substrate in a first direction. The resin covers the semiconductor chip. The terminal is provided below the substrate in the first direction. The resin includes a first portion and a second portion. A height of the first portion in the first direction is higher than a height of the second portion in the first direction. An edge of the second portion in a second direction along the first surface is a part of an edge of the resin in the second direction.

A semiconductor device includes a substrate, a semiconductor chip, a resin, and a terminal. The substrate spreads along a first surface. The semiconductor chip is provided above the substrate in a first direction. The resin covers the semiconductor chip. The terminal is provided below the substrate in the first direction. The resin includes a first portion and a second portion. A height of the first portion in the first direction is higher than a height of the second portion in the first direction. An edge of the second portion in a second direction along the first surface is a part of an edge of the resin in the second direction.

A system connects a board to a substrate through an interposer board having compressible connectors through the interposer board. The connectors through the interposer board are compression-based connector pins that extends above and below the interposer board to make electrical contact between the board and the substrate. The system can include a plate to secure the board to the substrate and compress the compression-based connectors of the interposer board.

A system connects a board to a substrate through an interposer board having compressible connectors through the interposer board. The connectors through the interposer board are compression-based connector pins that extends above and below the interposer board to make electrical contact between the board and the substrate. The system can include a plate to secure the board to the substrate and compress the compression-based connectors of the interposer board.

A pressing device for indirectly or directly applying pressure to power-semiconductor components of a power-semiconductor module, having a pressing plate, having a pressing nub element which is formed from an elastic material and which has a pressing nub plate and pressing nubs projecting therefrom, and having a receiving device for receiving the pressing nub element, which receiving device has a base plate provided with recesses, wherein the recesses run through the base plate, wherein the pressing nub plate is arranged on the base plate and the pressing nubs run through the recesses and, on the main side of the base plate facing away from the pressing nub plate, project beyond this main side of the base plate, and wherein the pressing nub plate is arranged between the pressing plate and the base plate.

A pressing device for indirectly or directly applying pressure to power-semiconductor components of a power-semiconductor module, having a pressing plate, having a pressing nub element which is formed from an elastic material and which has a pressing nub plate and pressing nubs projecting therefrom, and having a receiving device for receiving the pressing nub element, which receiving device has a base plate provided with recesses, wherein the recesses run through the base plate, wherein the pressing nub plate is arranged on the base plate and the pressing nubs run through the recesses and, on the main side of the base plate facing away from the pressing nub plate, project beyond this main side of the base plate, and wherein the pressing nub plate is arranged between the pressing plate and the base plate.