A semiconductor module is provided, including: a semiconductor chip having an upper surface electrode and a lower surface electrode opposite to the upper surface electrode; a metal wiring plate electrically connected to the upper surface electrode of the semiconductor chip; and a sheet-like low elastic sheet provided on the metal wiring plate, the low elastic sheet having elastic modulus lower than that of the metal wiring plate. A manufacturing method for a semiconductor module is provided, including: providing a semiconductor chip; solder-bonding a metal wiring plate above said semiconductor chip; and applying a sheet-like low elastic sheet having the elastic modulus lower than that of said metal wiring plate to said metal wiring plate.

A semiconductor module is provided, including: a semiconductor chip having an upper surface electrode and a lower surface electrode opposite to the upper surface electrode; a metal wiring plate electrically connected to the upper surface electrode of the semiconductor chip; and a sheet-like low elastic sheet provided on the metal wiring plate, the low elastic sheet having elastic modulus lower than that of the metal wiring plate. A manufacturing method for a semiconductor module is provided, including: providing a semiconductor chip; solder-bonding a metal wiring plate above said semiconductor chip; and applying a sheet-like low elastic sheet having the elastic modulus lower than that of said metal wiring plate to said metal wiring plate.

A package and method of making a package is disclosed. In one example, the package includes an electronic chip having at least one pad, an encapsulant at least partially encapsulating the electronic chip, and an electrically conductive contact element extending from the at least one pad and through the encapsulant so as to be exposed with respect to the encapsulant. The electrically conductive contact element comprises a first contact structure made of a first electrically conductive material on the at least one pad and comprises a second contact structure made of a second electrically conductive material and being exposed with respect to the encapsulant. At least one of the at least one pad has at least a surface portion which comprises or is made of the first electrically conductive material.

A clip structure and a semiconductor package using the same include different metals in multiple layers so as to selectively, easily and exactly fix semiconductor chips, which consists of a lightweight material so as to lighten the weight of semiconductor packages and to help reduce manufacturing costs, and which in particular, maintains the width of a self-welding layer consisting of a clip structure so as to help improve the quality of adhesion. That is, according to a clip structure of the present invention, which electrically connects package elements in a semiconductor package, the clip structure includes a main metallic layer that is configured to maintain a shape, and a first functional layer that is piled on one surface of the main metallic layer and consists of a metal different from that of the main metal layer.

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.

A power module (PM) includes: an insulating substrate; a semiconductor device disposed on the insulating substrate, the semiconductor device including electrodes on a front surface side and a back surface side thereof; and a graphite plate having an anisotropic thermal conductivity, the graphite plate of which one end is connected to the front surface side of the semiconductor device and the other end is connected to the insulating substrate, wherein heat of the front surface side of the semiconductor device is transferred to the insulating substrate through the graphite plate. There is provide an inexpensive power module capable of reducing a stress and capable of exhibiting cooling performance not inferior to that of the double-sided cooling structures.

A clip structure and a semiconductor package using the same include different metals in multiple layers so as to selectively, easily and exactly fix semiconductor chips, which consists of a lightweight material so as to lighten the weight of semiconductor packages and to help reduce manufacturing costs, and which in particular, maintains the width of a self-welding layer consisting of a clip structure so as to help improve the quality of adhesion. That is, according to a clip structure of the present invention, which electrically connects package elements in a semiconductor package, the clip structure includes a main metallic layer that is configured to maintain a shape, and a first functional layer that is piled on one surface of the main metallic layer and consists of a metal different from that of the main metal layer.

A power module (PM) includes: an insulating substrate; a semiconductor device disposed on the insulating substrate, the semiconductor device including electrodes on a front surface side and a back surface side thereof; and a graphite plate having an anisotropic thermal conductivity, the graphite plate of which one end is connected to the front surface side of the semiconductor device and the other end is connected to the insulating substrate, wherein heat of the front surface side of the semiconductor device is transferred to the insulating substrate through the graphite plate. There is provide an inexpensive power module capable of reducing a stress and capable of exhibiting cooling performance not inferior to that of the double-sided cooling structures.

A power module providing an improved manufacture yield and having an ensured stable joint strength and accordingly improved reliability is provided. The power module includes: a base portion having one surface on which an electrode portion is formed; a conductor portion disposed to face the one surface of the base portion on which the electrode portion is formed, for making electrical connection with the outside; and an interconnect portion connected to the electrode portion formed on the one surface of the base portion and to the surface of the conductor portion facing the one surface of the base portion for electrically connecting the electrode portion to the conductor portion.