A semiconductor device includes a semiconductor chip having a source electrode on the front surface thereof, a diode that has an anode electrode on the front surface thereof, and a first conductive member through which output signals from the source electrode pass. The semiconductor device further includes a first wiring member that electrically connects the source electrode and the first conductive member, and a second wiring member that electrically connects the anode electrode and the first conductive member and that has a wider surface area than the first wiring member. The semiconductor device includes a second conductive member where the semiconductor chip and the diode are arranged.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A device is provided for interconnecting electronic systems having reference potentials separated by an alternating potential difference, the device includes a plurality of electrical connections that can electrically connect the electronic systems, and inductance coils arranged in series on the electrical connections, the inductance coils being electromagnetically coupled. Also provided is a method for interconnecting electronic systems.

A semiconductor module includes an insulated circuit board that includes an insulating substrate, a first conductive plate arranged on a first principal surface of the insulating substrate and within the outer edges of the insulating substrate, and a second conductive plate arranged within the outer edges of the insulating substrate on a second principal surface of the insulating substrate that faces the first principal surface. Furthermore, boundary edges between the first principal surface of the insulating substrate and the side faces of the first conductive plate are covered by an ion gel that contains an ionic liquid.

A semiconductor module includes an insulated circuit board that includes an insulating substrate, a first conductive plate arranged on a first principal surface of the insulating substrate and within the outer edges of the insulating substrate, and a second conductive plate arranged within the outer edges of the insulating substrate on a second principal surface of the insulating substrate that faces the first principal surface. Furthermore, boundary edges between the first principal surface of the insulating substrate and the side faces of the first conductive plate are covered by an ion gel that contains an ionic liquid.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A semiconductor device includes a semiconductor chip having a source electrode on the front surface thereof, a diode that has an anode electrode on the front surface thereof, and a first conductive member through which output signals from the source electrode pass. The semiconductor device further includes a first wiring member that electrically connects the source electrode and the first conductive member, and a second wiring member that electrically connects the anode electrode and the first conductive member and that has a wider surface area than the first wiring member. The semiconductor device includes a second conductive member where the semiconductor chip and the diode are arranged.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.