A common-source type package structure is provided in the present invention. In the package structure, an integrated component body is configured a common-source pin region, a first arrangement region and a second arrangement region. The second and first arrangement regions are spaced apart from each other. A first MOSFET die and a second MOSFET are respectively located at the first and second arrangement region respectively, and have a top surface, a source electrode pad and a gate electrode pad. The source electrode pad and the gate electrode pad are exposed to the top surface and spaced apart from each other. A common-source connection element is connected to the source electrode pad and the common-source pin region. A gate connection element is connected to the gate electrode pad and a gate pin region of the integrated component body.

A common-source type package structure is provided in the present invention. In the package structure, an integrated component body is configured a common-source pin region, a first arrangement region and a second arrangement region. The second and first arrangement regions are spaced apart from each other. A first MOSFET die and a second MOSFET are respectively located at the first and second arrangement region respectively, and have a top surface, a source electrode pad and a gate electrode pad. The source electrode pad and the gate electrode pad are exposed to the top surface and spaced apart from each other. A common-source connection element is connected to the source electrode pad and the common-source pin region. A gate connection element is connected to the gate electrode pad and a gate pin region of the integrated component body.

A common-source type package structure is provided in the present invention. In the package structure, an integrated component body is configured a common-source pin region, a first arrangement region and a second arrangement region. The second and first arrangement regions are spaced apart from each other. A first MOSFET die and a second MOSFET are respectively located at the first and second arrangement region respectively, and have a top surface, a source electrode pad and a gate electrode pad. The source electrode pad and the gate electrode pad are exposed to the top surface and spaced apart from each other. A common-source connection element is connected to the source electrode pad and the common-source pin region. A gate connection element is connected to the gate electrode pad and a gate pin region of the integrated component body.

Each of first and second semiconductor devices mounted on a substrate includes an emitter terminal electrically connected with a front surface electrode of a semiconductor chip and exposed from a main surface of a sealing body located on a front surface side of the semiconductor chip. Each of the first and second semiconductor devices includes a collector terminal electrically connected with a back surface electrode of the semiconductor chip and exposed from the main surface of the sealing body located on a back surface side of the semiconductor chip. The collector terminal of the first semiconductor device is electrically connected with the emitter terminal of the second semiconductor device via a conductor pattern formed on an upper surface of the substrate.

Disclosed is a power semiconductor package including a power transistor having a first power electrode and a gate electrode on its top surface and a second power electrode on its bottom surface. The second power electrode is configured for attachment to a partially etched leadframe segment, where the partially etched leadframe segment is attached to a substrate. A conductive clip is situated over the first power electrode and extends to the substrate in order to couple the first power electrode to the substrate without using a leadframe.

In a power semiconductor device, an IGBT has a collector electrode bonded to a metal plate by a bonding material. A diode has a cathode electrode bonded to the metal plate by the bonding material. An interconnection member is bonded to an emitter electrode of the IGBT by a bonding material. The bonding material includes a bonding material and a bonding material. The bonding material is interposed between the IGBT and the interconnection member. The bonding material fills a through hole formed in the interconnection member. The bonding material reaches the bonding material and is therefore connected to the bonding material.

A fingerprint sensor package includes: a first substrate including a core insulating layer including a first surface and a second surface and a through-hole, a first bonding pad on the second surface, and an external connection pad between an edge of the second surface and the first bonding pad; a second substrate in the through-hole and including a third surface and a fourth surface, and including first sensing patterns on the third surface, spaced apart in a first direction, and extending in a second direction, second sensing patterns spaced apart from each other in the second direction and extending in the first direction, and a second bonding pad on the fourth surface; a conductive support electrically connecting the first bonding pad and the second bonding pad and supporting the first substrate and the second substrate; a controller chip on the second substrate; and a molding layer on the second surface.

A lead frame structure for connecting a semiconductor chip to a connection target includes a conductive member electrically connecting the semiconductor chip and the connection target. The conductive member includes a first bonding part having a main surface, disposed on one side of the conductive member and being bonded to the semiconductor chip, a second bonding part having a main surface, being disposed on another side of the conductive member that is spaced from the one side in one direction and being bonded to the connection target, and a joining part having a wall section intersecting the main surface of the first bonding part and the main surface of the second bonding part, the wall section joining a portion of the first bonding part to a portion of the second bonding part.

A semiconductor module includes: a first conductive portion; a second conductive portion spaced from the first conductive portion in a first direction; first semiconductor elements electrically bonded to the first conductive portion and mutually spaced in a second direction perpendicular to the first direction; and second semiconductor elements electrically bonded to the second conductive portion and mutually spaced in the second direction. The semiconductor module further includes: a first input terminal electrically connected to the first conductive portion; a second input terminal of opposite polarity to the first input terminal; and an output terminal opposite from the two input terminals in the first direction and electrically connected to the second conductive portion. The semiconductor module further includes: a first conducting member connected to the first semiconductor elements and second conductive portion; and a second conducting member connected to the second semiconductor elements and second input terminal.

A semiconductor device includes: a first semiconductor element including a first face and a second face; a second semiconductor element including a third face and a fourth face; an insulating base member including a fifth face and a sixth face; a first wiring that penetrates through the insulating base member, and is disposed on the sixth face; a second wiring that penetrates through the insulating base member, and is disposed on the sixth face; a first wiring member that faces the second face; and a second wiring member that faces the sixth face, and is electrically connected to the second wiring. The second wiring member is bonded to the first and second wirings while the insulating base member is folded. A current flows in a first direction in the first wiring member, and flows in a second direction opposite to the first direction in the second wiring member.