Semiconductor module including a semiconductor and including a shaped metal body that is electrically contacted by the semiconductor, for forming a contact surface for an electrical conductor, wherein the shaped metal body is bent or folded. A method is also described for establishing electrical contacting of an electrical conductor on a semiconductor, said method including the steps of: fastening a bent or folded shaped metal body of a constant thickness to the semiconductor by means of a first fastening method and then fastening the electrical conductor to the shaped metal body by means of a second fastening method.

Semiconductor module having a first substrate, a second substrate and a spacer distancing the substrates from each other, wherein the spacer is formed by at least one elastic shaped metal body.

A semiconductor device includes: first and second die pads spaced from each other in a first direction; a semiconductor element mounted on at least one of the first and the second die pads; and a sealing resin. The sealing resin is longer in the first direction than in a second direction. The first die pad has a first end surface, a second end surface, and a first corner end surface. The first corner end surface is a flat surface that is covered with the sealing resin, and that is inclined relative to the first end surface and the second end surface. The first corner end surface has a first inclination angle relative to the first end surface and a second inclination angle relative to the second end surface. Either the first inclination angle or the second inclination angle is in the range of 60 to 85 both inclusive.

A clip for a semiconductor package and a semiconductor having a clip is disclosed. In one example, the clip includes a first planar portion, a plurality of first pillars, and a plurality of first solder balls. Each first pillar of the plurality of first pillars is coupled to the first planar portion. Each first solder ball of the plurality of first solder balls is coupled to a corresponding first pillar of the plurality of first pillars.

Implementations of semiconductor packages may include one or more die coupled over a substrate, an electrically conductive spacer coupled over the substrate, and a clip coupled over and to the one or more die and the electrically conductive spacer. The clip may electrically couple the one or more die and the electrically conductive spacer.

Methods, and systems, are presented for a Structural Bridge for Electrically Isolated Metal Clips by mounting on a substrate a first and a second circuit. These first and second circuits can include Component on Package (CoP) electronic parts that are electrically contacted to the substrate with metal clips mounted on the surface of the substrate. The metal clips are electrically connected to respective circuit first and second circuits by an electrical connection on or in the substrate. The metal clips are folded over the respective first and second circuits. The folded-over portion of the first metal clip and the folded-over portion of the second metal clip are electrically isolated from each other. A third circuit package that is mounted on and electrically connected to a folded-over portion of the first metal clip and to a folded-over portion of the second metal clip.

Implementations of semiconductor packages may include one or more die coupled over a substrate, an electrically conductive spacer coupled over the substrate, and a clip coupled over and to the one or more die and the electrically conductive spacer. The clip may electrically couple the one or more die and the electrically conductive spacer.

An electronic device includes a substrate having first and second conductive traces, a semiconductor die having a transistor with a first terminal and a second terminal, and first and second metal clips. The first metal clip has a first end portion coupled to the first terminal of the transistor, and a second end portion coupled to the first conductive trace of the substrate. The second metal clip has a first end portion coupled to the second terminal of the transistor and a second end portion coupled to the second conductive trace of the substrate, and a middle portion of the second metal clip is spaced apart from and at least partially overlying a portion of the first metal clip.

A semiconductor package includes a leadframe, having perimeter package leads and a ground voltage lead, a bottom semiconductor die flip-chip mounted to the leadframe, and a top semiconductor die. The bottom semiconductor die has a first frontside active layer with first frontside electrical contacts electrically connected to the leadframe, a first backside portion, and a buried oxide layer situated between the first frontside active layer and the first backside portion. The top semiconductor die is mounted to the first backside portion. The first frontside active layer includes a circuit electrically connected to the first backside portion by a backside electrical connection through the buried oxide layer. The first backside portion of the bottom semiconductor die is electrically connected to the ground voltage lead through a first electrical contact of the first frontside electrical contacts to minimize crosstalk.

A semiconductor package includes a leadframe having perimeter package leads and electrical connectors, a single semiconductor die having a back-side electrical contact and front-side electrical contacts, an electrically conductive clip (clip), and a top semiconductor die having a frontside and a backside. The single semiconductor die includes two or more transistors. Two or more of the front-side electrical contacts of the semiconductor die are electrically coupled to and physically mounted to respective electrical contacts of the leadframe. An electrical contact surface of the clip is electrically coupled to and physically mounted to an electrical connector of the leadframe. Another electrical contact surface of the clip is physically mounted to and electrically coupled to the back-side electrical contact of the semiconductor die. The backside of the top semiconductor die is physically mounted to yet another surface of the electrically conductive clip.