A light-emitting device mounting package includes a substrate, a frame extending upward from the substrate and surrounding a mounting portion, a lead plate supported on the frame, and a ceramic plate having a facing front surface and a facing back surface on the opposite side. The frame has a first through hole through which the lead terminal extends. The ceramic plate has a second through hole, and a metalized layer formed on the facing front surface such that the metalized layer is spaced from an opening of the second through hole. The lead plate penetrates the first and second through holes and is fixed, via a collar portion, to a region of the facing back surface around an opening of the second through hole on the facing back surface side. The insulating member is fixed to a region around the first through hole via the metalized layer.

A package comprising at least one electronic chip, an encapsulant encapsulating at least part of the at least one electronic chip, a first electrically conductive contact structure extending partially within and partially outside of the encapsulant and being electrically coupled with at least one first terminal of at least one of the at least one electronic chip, and a second electrically conductive contact structure extending partially within and partially outside of the encapsulant and being electrically coupled with at least one second terminal of at least one of the at least one electronic chip, wherein at least a portion of the first electrically conductive contact structure and at least a portion of the second electrically conductive contact structure within the encapsulant are spaced in a direction between two opposing main surfaces of the package.

A semiconductor device includes: a base plate including a metallic base plate and an insulating film provided on the metallic base plate; a semiconductor chip provided on the base plate; a control board disposed above the semiconductor chip; and a relay terminal connected to a signal electrode of the semiconductor chip through a signal line wire, extending to the control board, and connected to the control board, wherein the relay terminal is directly fixed to the insulating film of the base plate.

A heat and shock resistant integrated circuit (IC) of the present invention includes a base material, a metal layer disposed on the base material, a silicon die disposed on the metal layer, additive material disposed on the base material, gas filled filler material disposed between the additive material and the silicon die, and first traces electrically connecting the silicon die to the additive material. Packing of the integrated circuit provides exceptional thermal stress relief and impact protection of circuitry within the packaging.

A semiconductor module includes a metal substrate having a mounting surface, a first conductive plate on the mounting surface, an insulating substrate on the first conductive plate, a second conductive plate on the insulating substrate, a conductive pad on the insulating substrate, a semiconductor element on the second conductive plate, a circuit board electrically connected to the conductive pad, a resin case connected to the metal substrate and extending along at least a portion thereof, and around the first conductive plate, the insulating substrate, the second conductive plate, the conductive pad, the semiconductor element, and the circuit board, and a silicone gel in a region bounded by the metal substrate and the resin case. The circuit board comprises a plurality of planar surfaces oriented perpendicular to the mounting surface of the metal substrate.

An electronic device includes a first substrate, a wiring substrate (second substrate) disposed over the first substrate, and an enclosure (case) in which the first substrate and the wiring substrate are accommodated and that has a first side and a second side. A driver component (semiconductor component) is mounted on the wiring substrate. A gate electrode of a first semiconductor component is electrically connected to the driver component via a lead disposed on a side of the first side and a wiring disposed between the driver component and the first side. A gate electrode of a second semiconductor component is electrically connected to the driver component via a lead disposed on a side of the second side and a wiring disposed between the driver component and the second side.

A semiconductor device includes: a base plate including a metallic base plate and an insulating film provided on the metallic base plate; a semiconductor chip provided on the base plate; a control board disposed above the semiconductor chip; and a relay terminal connected to a signal electrode of the semiconductor chip through a signal line wire, extending to the control board, and connected to the control board, wherein the relay terminal is directly fixed to the insulating film of the base plate.

An integrated circuit IC package with one or more pins protruding from the IC package for electrically connecting the IC package with a printed circuit board PCB is presented. The IC package has a first die with a first electronic component, a second die with a second electronic component, and a conductive plate having a plane surface. The first electronic component may be a semiconductor power device and the second electronic component may be a control circuit. The plane surface of the conductive plate is electrically connected to both a plane surface of the first die and one or more pins such that an electrical connection is established between the first die and the one or more pins. The second die may be arranged on top of the conductive plate. Alternatively, a third die with a third electronic component may be arranged on top of the conductive plate.

A wire, preferably a bonding wire for bonding in microelectronics, contains a copper core with a surface and coating layer containing aluminum superimposed over the surface of the copper core. The ratio of the thickness of the coating layer to the diameter of the copper core is from 0.05 to 0.2 m. The wire has a diameter in the range of from 100 m to 600 m and specified standard deviations of the diameter of the copper core and of the thickness of the coating layer. The invention further relates to a process for making a wire, to a wire obtained by the process, to an electric device containing at least two elements and the wire, to a propelled device containing the electric device, and to a process of connecting two elements through the wire by wedge bonding.

A semiconductor light emitting apparatus includes: a stem part having a stem base, a lead terminal, and a metal member having a closed shape, the stem base having an inner portion having a first face, a second face and an opening extending in a first direction from the first face to the second face, and an outer portion surrounding the inner portion, the inner and outer portions being arranged along a reference plane intersecting the first direction, the lead terminal being supported in the opening, and the metal member being disposed on the outer portion so as to surround the inner portion and having a first portion supported by a top face of the outer portion, and a second portion extending outward with reference to an edge of the outer portion; a semiconductor optical element disposed on the inner portion; and a cap disposed on the metal member.