In one embodiment, methods for making semiconductor devices are disclosed.

A semiconductor module is provided with a conductive member having one end, in a longitudinal direction, joined to an electrode of a semiconductor element that is mounted on an insulating substrate, the other end of the conductive member in the longitudinal direction being joined to a component different from the electrode. The conductive member is made up of a metal sheet, and has a bent portion at the one end and at the other end. The bent portion provided at the one end has a cut in a leading end portion, in the longitudinal direction, and an end joining section at which the cut is not present is joined to the electrode of the semiconductor element. As a result, a semiconductor module can be realized that allows combination of increased current capacity with improved reliability.

In a power semiconductor device, an IGBT has a collector electrode bonded to a metal plate by a bonding material. A diode has a cathode electrode bonded to the metal plate by the bonding material. An interconnection member is bonded to an emitter electrode of the IGBT by a bonding material. The bonding material includes a bonding material and a bonding material. The bonding material is interposed between the IGBT and the interconnection member. The bonding material fills a through hole formed in the interconnection member. The bonding material reaches the bonding material and is therefore connected to the bonding material.

A semiconductor device includes a conductive substrate including an obverse surface facing a first side in thickness direction and a reverse surface opposite from the obverse surface, a first switching semiconductor element bonded to the obverse surface, a first conductive member for passing main circuit current switched by the semiconductor element, and a sealing resin covering the semiconductor element, the conductive member and a part of the substrate. The substrate includes first and second conductive portions mutually spaced in first direction orthogonal to thickness direction. The semiconductor element is electrically bonded to the first conductive portion. The conductive member includes a first part overlapping with the first and the second conductive portions as viewed in thickness direction and being spaced from the obverse surface toward the first side in thickness direction. The first part includes a first opening.

Implementations of semiconductor packages may include: a first substrate having two or more die coupled to a first side, a clip coupled to each of the two or more die on the first substrate and a second substrate having two or more die coupled to a first side of the second substrate. A clip may be coupled to each of the two or more die on the second substrate. The package may include two or more spacers coupled to the first side of the first substrate and a lead frame between the first substrate and the second substrate and a molding compound. A second side of each of the first substrate and the second substrate may be exposed through the molding compound. A perimeter of the first substrate and a perimeter of the second substrate may not fully overlap when coupled through the two or more spacers.

Implementations of semiconductor packages may include a first substrate having two or more die coupled to a first side, a clip coupled to each of the two or more die on the first substrate and a second substrate having two or more die coupled to a first side of the second substrate. A clip may be coupled to each of the two or more die on the second substrate. The package may include a lead frame between the first substrate and the second substrate and a molding compound. A second side of each of the first substrate and the second substrate may be exposed through the molding compound. A perimeter of the first substrate and a perimeter of the second substrate may not fully overlap when coupled through the lead frame.

A semiconductor device is disclosed. In one example, the semiconductor device comprises a first semiconductor die comprising a first surface, a second surface opposite to the first surface, and a contact pad disposed on the first surface, a further contact pad spaced apart from the semiconductor die, a clip comprising a first layer of a first metallic material and a second layer of a second metallic material different from the first metallic material, wherein the first layer of the clip is connected with the contact pad, and the second layer of the clip is connected with the further contact pad.

Various leadframe implementations may include a conductive substrate electrically coupled to a first lead where the conductive substrate includes a first elevated region and a second elevated region on a first side of the conductive substrate. The first elevated region may include a first planar surface and the second elevated region may include a second planar surface on the first side of the conductive substrate. Various implementations may include where the first planar surface of the first elevated region and the second planar surface of the second elevated region are configured to attach to a contact pad of a semiconductor die. The first planar surface may include a curved edge. The second planar surface may include a polygonal shape. The curved edge of the first planar surface may be configured to laterally align with a curved edge of the contact pad of the semiconductor die.

A semiconductor device and an electronic device are improved in performances by supporting a large current. An emitter terminal protrudes from a first side of a sealing body, and signal terminals protrude from a second sides of the sealing body. Namely, the side of the sealing body from which the emitter terminal protrudes and the side of the sealing body from which the signal terminals protrude are different. More particularly, the signal terminals protrude from the side of the sealing body opposite the side thereof from which the emitter terminal protrudes. Further, a second semiconductor chip including a diode formed therein is mounted over a first surface of a chip mounting portion in such a manner as to be situated between the emitter terminal and the a first semiconductor chip including an IGBT formed therein in plan view.

A semiconductor device includes: a seal portion; a first electronic element; a second lead terminal having one end that is disposed to be close to the one end of the first lead terminal within the seal portion, and another end that is exposed from another end of the seal portion, the other end of the seal portion being along the longitudinal direction; a first connecting element disposed within the seal portion, and having one end that is electrically connected to the first electrode disposed on the first electronic element, and another end that is electrically connected to the one end of the second lead terminal; and a conductive bonding agent.