A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.

A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.

A semiconductor package structure includes a semiconductor die having an active surface, a conductive bump electrically coupled to the active surface, and a dielectric layer surrounding the conductive bump. The conductive bump and the dielectric layer form a planar surface at a distal end of the conductive bump with respect to the active surface. The distal end of the conductive bump is wider than a proximal end of the conductive bump with respect to the active surface.

A semiconductor package structure includes a semiconductor die having an active surface, a conductive bump electrically coupled to the active surface, and a dielectric layer surrounding the conductive bump. The conductive bump and the dielectric layer form a planar surface at a distal end of the conductive bump with respect to the active surface. The distal end of the conductive bump is wider than a proximal end of the conductive bump with respect to the active surface.

In a method for connecting components during production of power electronics modules or assemblies, surfaces of the components have a metallic surface layer upon supply, or are furnished therewith, wherein the layer has a surface that is smooth enough to allow direct bonding or is smoothed to obtain a surface that is smooth enough to allow direct bonding. The surface layers of the surfaces that are to be connected are then pressed against each other with a pressure of at least 5 MPa at elevated temperature, so that they are joined to each other, forming a single layer. The method enables simple, rapid connection of even relatively large contact surfaces, which satisfies the high requirements of power electronics modules.

In a method for connecting components during production of power electronics modules or assemblies, surfaces of the components have a metallic surface layer upon supply, or are furnished therewith, wherein the layer has a surface that is smooth enough to allow direct bonding or is smoothed to obtain a surface that is smooth enough to allow direct bonding. The surface layers of the surfaces that are to be connected are then pressed against each other with a pressure of at least 5 MPa at elevated temperature, so that they are joined to each other, forming a single layer. The method enables simple, rapid connection of even relatively large contact surfaces, which satisfies the high requirements of power electronics modules.

A semiconductor device package includes a first semiconductor device, a first redistribution layer (RDL) structure and a second RDL structure. The first semiconductor device has a first conductive terminal and a second conductive terminal. The first RDL structure covers the first conductive terminal. The second RDL structure covers the second conductive terminal and being separated from the first RDL structure.

A semiconductor device package includes a first semiconductor device, a first redistribution layer (RDL) structure and a second RDL structure. The first semiconductor device has a first conductive terminal and a second conductive terminal. The first RDL structure covers the first conductive terminal. The second RDL structure covers the second conductive terminal and being separated from the first RDL structure.

A semiconductor device package includes a first semiconductor device, a first redistribution layer (RDL) structure and a second RDL structure. The first semiconductor device has a first conductive terminal and a second conductive terminal. The first RDL structure covers the first conductive terminal. The second RDL structure covers the second conductive terminal and being separated from the first RDL structure.

A semiconductor device package includes a first semiconductor device, a first redistribution layer (RDL) structure and a second RDL structure. The first semiconductor device has a first conductive terminal and a second conductive terminal. The first RDL structure covers the first conductive terminal. The second RDL structure covers the second conductive terminal and being separated from the first RDL structure.