A semiconductor device includes: a housing; a substrate inside the housing; first and second semiconductor circuits on the substrate; and first and second planar terminals electrically connected to the first and second semiconductor circuits, respectively, the first and second planar terminals stacked on top of each other, wherein each of the first and second planar terminals extends away from the housing.

A relay substrate in which a circuit pattern and an external electrode are integrated on a insulating plate is used in the semiconductor device. Such configuration makes it possible to reduce a resistance in a current path while preventing the problems occurring when the external electrode is soldered on the semiconductor chip.

A signal block and a double-faced cooling power module that uses the signal block is provided. The signal block includes a plurality of signal clips that are formed in a ribbon shape to connect a first signal pad formed on a semiconductor chip and a second signal pad formed on a signal lead frame. An insulator fixes the position of the plurality of signal clips while spacing the signal clips apart from each other.

A semiconductor device includes: a housing; a substrate inside the housing; first and second semiconductor circuits on the substrate; and first and second planar terminals electrically connected to the first and second semiconductor circuits, respectively, the first and second planar terminals stacked on top of each other, wherein each of the first and second planar terminals extends away from the housing.

A cooling module has a heat generating body, a heat exchanger made of metal, and an insulating plate. The heat generating body has a heat dissipating surface. The heat exchanger has cooling surface facing the heat dissipating surface. The insulating plate has a first surface and a second surface. The insulating plate is interposed between the heat dissipating surface and the cooling surface on a condition that the insulating plate faces the heat dissipating surface and that the second surface faces the cooling surface. The insulating plate and the cooling surface are joined to be one body by a joining material. The heat dissipating surface and the insulating plate are in close contact with each other through an elastic member. The heat dissipating surface and the cooling surface are thermally connected to each other through the joining material, the insulating plate, and the elastic member.

Provided is a bidirectional semiconductor package in which the number of processes for manufacturing the bidirectional semiconductor package is reduced. According to present application, a portion between one end and the other end of the buffer wire is in contact with the lower surface of the upper DBC substrate and heat generated by the semiconductor chip is transferred to the upper DBC substrate.

A power converter includes: a circuit board having an insulating substrate and a plurality of wirings in the insulating substrate; and first and second switching elements on a first surface of the circuit board that are connected in series. The first switching element has first and second electrodes. The second switching element has a third electrode and a fourth electrode. The circuit board has a first wiring connected to the first electrode, a second wiring connected to the second and third electrodes, a third wiring connected to the fourth electrode, a fourth wiring as an output wiring connected to the third electrode, and a fifth wiring connected to the third wiring. The first, second, third and fourth wirings are arranged in order on the first surface, and the fifth wiring on a second surface opposite to the first surface is opposed to the first, second, and third wirings.

A semiconductor device includes: a semiconductor chip having an electrode on one surface; a first conductive member disposed on one surface side of the semiconductor chip; a metal member having a base member and a membrane and disposed between the semiconductor chip and the first conductive member; a first solder disposed between the electrode of the semiconductor chip and the metal member; and a second solder disposed between the metal member and the first conductive member. The membrane has a metal thin film arranged on the surface of the base member and an uneven oxide film. The uneven oxide film is arranged on the metal thin film in at least a part of a connection region of a surface of the metal member, the connection region connecting a first connection region to which the first solder is connected and a second connection region to which the second solder is connected.

A soldering jig for double-faced cooling power modules is provided. The soldering jig prevents thermal deformation of a substrate during a soldering process. The soldering jig is used to fix the position of an upper substrate and a lower substrate when a semiconductor chip is disposed and soldered between the upper and lower substrates. The soldering jig includes a lower jig plate that is disposed under the lower substrate and fixes the position of lower substrate, an upper jig plate that is disposed over the upper substrate and compresses the upper substrate toward the lower substrate. Additionally, a connector which couples the lower jig plate and the upper jig plate, and an insert is installed on the connector and is disposed between the upper substrate and the lower substrate to maintain a constant distance between the upper substrate and the lower substrate during a soldering process.

A double-facing cooling-type power module has coolers on both sides. The power module includes: a first switch having the coolers on both sides; a second switch disposed independently from the first switch and having the coolers on both sides; and a common electrode coupled to both the first switch and the second switch.