An electronic power device including: a first electronic power component in which all the electrodes are arranged at a first main face of the first electronic power component; and an electric contact element in which a first main face is arranged against the first main face of the first electronic power component and which includes plural separate electrically conductive portions to which the electrodes of the first electronic power component are electrically connected. The first electronic power component and the electric contact element together form a stack such that a first lateral face of each of the portions of the electric contact element, substantially perpendicular to the first main face of the electric contact element, is arranged against at least one metallization of a support forming an electric contact of the first electronic power component.

Multi-die integrated circuit packages and methods of manufacturing the same are disclosed. An example integrated circuit package includes a first leadframe, a first die on a first side of the first leadframe, and a second die on a second side of the first leadframe opposite the first side. The example integrated circuit package further includes external second leadframe separate from the first leadframe.

A method includes aligning a first electrical connector of a first package component to a second electrical connector of a second package component. With the first electrical connector aligned to the second electrical connector, a metal layer is plated on the first and the second electrical connectors. The metal layer bonds the first electrical connector to the second electrical connector.

A semiconductor assembly having heat dissipation characteristics includes stacked semiconductor chips thermally conductible to a thermal pad of an interconnect substrate and electrically connected to the interconnect substrate through bonding wire. The bonding wires extending from a primary routing circuitry in between the stacked chips can accommodate the height difference between the stacked chips and the interconnect substrate. These wires can also effectively compensate for the thermal expansion mismatch between the stacked chips and the interconnect substrate, thereby allowing a higher manufacturing yield and better reliability.

A method includes aligning a first electrical connector of a first package component to a second electrical connector of a second package component. With the first electrical connector aligned to the second electrical connector, a metal layer is plated on the first and the second electrical connectors. The metal layer bonds the first electrical connector to the second electrical connector.

A method includes aligning a first electrical connector of a first package component to a second electrical connector of a second package component. With the first electrical connector aligned to the second electrical connector, a metal layer is plated on the first and the second electrical connectors. The metal layer bonds the first electrical connector to the second electrical connector.

Embodiments herein generally relate to the field of package assembly to facilitate thermal conductivity. A package may have a hanging die, and attach to a printed circuit board (PCB). The package may have an active side plane and an inactive side plane opposite the first active side plane. The package may also have a ball grid array (BGA) matrix having a height determined by a distance of a furthest point of the BGA matrix from the active side plane of the package. The package may have a hanging die attached to the active side plane of the package, the hanging die having a z-height greater than the BGA matrix height. When package is attached to the PCB, the hanging die may fit into an area on the PCB that is recessed or has been cut away, and a thermal conductive material may connect the hanging die and the PCB.

Multi-die integrated circuit packages and methods of manufacturing the same are disclosed. An example integrated circuit package includes a first leadframe, a first die on a first side of the first leadframe, and a second die on a second side of the first leadframe opposite the first side. The example integrated circuit package further includes external second leadframe separate from the first leadframe.

An electronic power device including: a first electronic power component in which all the electrodes are arranged at a first main face of the first electronic power component; and an electric contact element in which a first main face is arranged against the first main face of the first electronic power component and which includes plural separate electrically conductive portions to which the electrodes of the first electronic power component are electrically connected. The first electronic power component and the electric contact element together form a stack such that a first lateral face of each of the portions of the electric contact element, substantially perpendicular to the first main face of the electric contact element, is arranged against at least one metallization of a support forming an electric contact of the first electronic power component.

Embodiments herein generally relate to the field of package assembly to facilitate thermal conductivity. A package may have a hanging die, and attach to a printed circuit board (PCB). The package may have an active side plane and an inactive side plane opposite the first active side plane. The package may also have a ball grid array (BGA) matrix having a height determined by a distance of a furthest point of the BGA matrix from the active side plane of the package. The package may have a hanging die attached to the active side plane of the package, the hanging die having a z-height greater than the BGA matrix height. When package is attached to the PCB, the hanging die may fit into an area on the PCB that is recessed or has been cut away, and a thermal conductive material may connect the hanging die and the PCB.