A semiconductor power module comprises an insulating interposer comprising an insulative layer disposed between a lower metal layer, a first upper metal layer and a second upper metal layer, a semiconductor transistor die disposed on the first upper metal layer, an electrical connector connecting the semiconductor transistor die with the second upper metal layer, a housing enclosing the insulating interposer and the semiconductor transistor die, a first potting material covering at least selective portions of the semiconductor transistor die and the electrical connector; and a second potting material applied onto the first potting material, wherein the first and second potting materials are different from each other.

A semiconductor assembly includes a semiconductor switching device, a conductive load base structure, and a current sense unit. The semiconductor switching device includes a drain structure and one or more array units, wherein each array unit includes a load pad and a plurality of transistor cells electrically connected in parallel between the load pad of the array unit and the drain structure. The current sense unit is electrically connected between a first one of the load pads and the load base structure.

A semiconductor device includes a semiconductor element having a surface electrode layer; a first wire that is electrically connected to the first main surface of the surface electrode layer at a plurality of first connecting portions and is arranged in a first direction on the first main surface; and a second wire that is electrically connected to the first main surface of the surface electrode layer at a second connecting portion and is arranged in a second direction on the first main surface, wherein a second circle equivalent diameter, which is a diameter of a circle having a same cross-sectional area as the second wire, is larger than a first circle equivalent diameter, which is a diameter of a circle having a same cross-sectional area as the first wire.

In a RC-IGBT chip, an anode electrode film and an emitter electrode film are arranged with a distance therebetween. The anode electrode film and the emitter electrode film are electrically connected by a wiring conductor having an external impedance and an external impedance. The external impedance and the external impedance include the resistance of the wiring conductor and the inductance of the wiring conductor.

A semiconductor device includes an insulation substrate including a circuit pattern, semiconductor chips mounted on the circuit pattern, a wire connecting between the semiconductor chips and between the semiconductor chip and the circuit pattern, and a conductive material serving as a conductor formed integrally with the wire.

A module includes an electronic component, an enclosure at least partially enclosing the electronic component and defining a module interface at which the module is configured to be mounted on a mounting base, and a gas flow-inhibiting sealing at the module interface and configured to inhibit gas from propagating from an exterior of the module towards the electronic component. An electronic device that includes the module and a method of manufacturing the module are also described.

A semiconductor package according to the exemplary embodiments of the disclosure includes a base substrate including a base bonding pad, a first semiconductor chip disposed on the base substrate, a first adhesive layer provided under the first semiconductor chip, a first bonding pad provided in a bonding region on an upper surface of the first semiconductor chip, a first bonding wire interconnecting the base bonding pad and the first bonding pad, and a crack preventer provided in a first region at the upper surface of the first semiconductor chip. The crack preventer includes dummy pads provided at opposite sides of the first region and a dummy wire interconnecting the dummy pads.

A module includes an electronic component, an enclosure at least partially enclosing the electronic component and defining a module interface at which the module is configured to be mounted on a mounting base, and a gas flow-inhibiting sealing at the module interface and configured to inhibit gas from propagating from an exterior of the module towards the electronic component. An electronic device that includes the module and a method of manufacturing the module are also described.

A semiconductor package is provided, including: a substrate; a first semiconductor element disposed on the substrate and having a first conductive pad grounded to the substrate; a conductive layer formed on the first semiconductor element and electrically connected to the substrate; a second semiconductor element disposed on the first semiconductor element through the conductive layer; and an encapsulant formed on the substrate and encapsulating the first and second semiconductor elements. Therefore, the first and second semiconductor elements are protected from electromagnetic interference (EMI) shielding with the conductive layer being connected to the grounding pad of the substrate. A fabrication method of the semiconductor package is also provided.

A power semiconductor device includes a frame, a semiconductor element, a substrate, and a sealing resin. The semiconductor element is disposed on the frame. The substrate is disposed on a side of the frame opposite to a side on which the semiconductor element is disposed. The sealing resin seals the semiconductor element and the substrate. The substrate includes a metal sheet, a first insulating sheet on one main surface side of the metal sheet, and a second insulating sheet on the other main surface side of the metal sheet. The metal sheet has flexibility at a normal temperature.