A system configured to increase a reliability of electrical connections in a device. The system including a lead configured to electrically connect a pad of at least one support structure to a pad of at least one electrical component. The lead includes an upper portion that includes a lower surface arranged on a lower surface thereof. The lower surface of the upper portion is arranged vertically above a first upper surface of a first pad connection portion; and the lower surface of the upper portion is arranged vertically above a second upper surface of the second pad connection portion. A process configured to increase a reliability of electrical connections in a device is also disclosed.

The semiconductor device includes a metal plate, a semiconductor element held on the metal plate, a wiring board connected to a surface electrode of the semiconductor element in a facing manner and a conductor fixed to the wiring board wired to the semiconductor element. The conductor has a plate-like shape. One end of the conductor is arranged to be connectable to an outside. One surface side of another end of the conductor is fixed to a surface of the wiring hoard. The conductor includes at least one protruding step on the one surface of the other end. A top portion of the protruding step includes a contact surface parallel to the surface of the wiring board. The other end of the conductor is fixed to the wiring board by the contact surface and the surface of the wiring board coming into close contact with each other.

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 semiconductor module includes an insulated circuit substrate including a semiconductor chip, an insulated circuit substrate including a wiring board provided on a front surface thereof, the wiring board having the semiconductor chip bonded thereto, a heat dissipation base having a front surface and a rear surface opposite to each other. The front surface has a substrate region to which the insulated circuit substrate is bonded. The rear surface has a heat dissipation region positioned overlapping the substrate region in a plan view of the semiconductor module and a loop-shaped region surrounding the heat dissipation region. The semiconductor module further includes a solid heat dissipation member made of a phase change material and provided on the rear surface of the heat dissipation base in the heat dissipation region, and an elastic member provided on the rear surface of the heat dissipation base in the loop-shaped region.

A power electronic device includes: a carrier having at least two die mounting areas; a power semiconductor die(s) mounted on the carrier at a first mounting area and having a first side facing the carrier and an opposite second side, a second die mounting area being free of any semiconductor die; and a contact clip arranged over the die and second die mounting area. The contact clip is at least partially arranged in a first plane, with a first part over the die being bent downwards such it is arranged in a second plane below the first plane and coupled to the second side of the die. A second part of the contact clip over the second die mounting area is bent upwards such that the second part is arranged in a third plane above the first plane, or is free of any bend and arranged in the first plane.

The semiconductor device includes a metal plate, a semiconductor element held on the metal plate, a wiring board connected to a surface electrode of the semiconductor element in a facing manner and a conductor fixed to the wiring board wired to the semiconductor element. The conductor has a plate-like shape. One end of the conductor is arranged to be connectable to an outside. One surface side of another end of the conductor is fixed to a surface of the wiring hoard. The conductor includes at least one protruding step on the one surface of the other end. A top portion of the protruding step includes a contact surface parallel to the surface of the wiring board. The other end of the conductor is fixed to the wiring board by the contact surface and the surface of the wiring board coming into close contact with each other.

A packaged RF device is provided that utilizes flexible circuit leads. The RF device includes at least one integrated circuit (IC) die configured to implement the RF device. The IC die is contained inside a package. In accordance with the embodiments described herein, a flexible circuit is implemented as a lead. Specifically, the flexible circuit lead is coupled to the at least one IC die inside the package and extends to outside the package, the flexible circuit lead thus providing an electrical connection to the at least one IC die inside the package.

A packaged RF device is provided that utilizes flexible circuit leads. The RF device includes at least one integrated circuit (IC) die configured to implement the RF device. The IC die is contained inside a package. In accordance with the embodiments described herein, a flexible circuit is implemented as a lead. Specifically, the flexible circuit lead is coupled to the at least one IC die inside the package and extends to outside the package, the flexible circuit lead thus providing an electrical connection to the at least one IC die inside the package.

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.