A semiconductor device includes a power semiconductor device, a circuit board, and an insulating substrate. The power semiconductor device includes contact pads. Adjacent ones of the contact pads are separated by one of a plurality of gaps. The circuit board includes traces for coupling with the contact pads of the power semiconductor device. The contact pads are physically attached to the traces. The insulating substrate is disposed between the circuit board and the power semiconductor device, where portions of the insulating substrate are disposed in the plurality of gaps, and where the insulating substrate has a monolithic structure.

A semiconductor device includes a power semiconductor device, a circuit board, and an insulating substrate. The power semiconductor device includes contact pads. Adjacent ones of the contact pads are separated by one of a plurality of gaps. The circuit board includes traces for coupling with the contact pads of the power semiconductor device. The contact pads are physically attached to the traces. The insulating substrate is disposed between the circuit board and the power semiconductor device, where portions of the insulating substrate are disposed in the plurality of gaps, and where the insulating substrate has a monolithic structure.

A package structure and a method for manufacturing a package structure are provided. The package structure includes a first wiring structure and at least one electronic device. The at least one electronic device is connected to the first wiring structure through at least two joint structures. The at least two joint structures respectively include different materials.

A package structure and a method for manufacturing a package structure are provided. The package structure includes a first wiring structure and at least one electronic device. The at least one electronic device is connected to the first wiring structure through at least two joint structures. The at least two joint structures respectively include different materials.

Even in a case where a pad becomes smaller, solder connection strength is improved. A semiconductor device includes a pad, a diffusion layer, and a melting layer. The pad included by the semiconductor device includes a concave portion on a surface at which solder connection is to be performed. The diffusion layer included by the semiconductor device is disposed at the concave portion and constituted with a metal which remains on the surface of the pad while diffusing into solder upon the solder connection. The melting layer included by the semiconductor device is disposed adjacent to the diffusion layer and constituted with a metal which diffuses and melts into the solder upon the solder connection.

Even in a case where a pad becomes smaller, solder connection strength is improved. A semiconductor device includes a pad, a diffusion layer, and a melting layer. The pad included by the semiconductor device includes a concave portion on a surface at which solder connection is to be performed. The diffusion layer included by the semiconductor device is disposed at the concave portion and constituted with a metal which remains on the surface of the pad while diffusing into solder upon the solder connection. The melting layer included by the semiconductor device is disposed adjacent to the diffusion layer and constituted with a metal which diffuses and melts into the solder upon the solder connection.

A semiconductor device includes a pad, a diffusion layer, and a melting layer. The pad included by the semiconductor device includes a concave portion on a surface at which solder connection is to be performed. The diffusion layer included by the semiconductor device is disposed at the concave portion and constituted with a metal which remains on the surface of the pad while diffusing into solder upon the solder connection. The melting layer included by the semiconductor device is disposed adjacent to the diffusion layer and constituted with a metal which diffuses and melts into the solder upon the solder connection.

A semiconductor device includes a pad, a diffusion layer, and a melting layer. The pad included by the semiconductor device includes a concave portion on a surface at which solder connection is to be performed. The diffusion layer included by the semiconductor device is disposed at the concave portion and constituted with a metal which remains on the surface of the pad while diffusing into solder upon the solder connection. The melting layer included by the semiconductor device is disposed adjacent to the diffusion layer and constituted with a metal which diffuses and melts into the solder upon the solder connection.

An electronic device structure includes a substrate having a substrate first major surface, an opposing substrate second major surface, and a first conductive pattern adjacent to the substrate first major surface. A first electronic component is coupled to the substate and includes a first component first side and a first device structure adjacent to the first component first side. A second electronic component is adjacent to the substate second major surface and includes a second component first side and a second device structure adjacent to the second component first side. A third electronic component is coupled to the substrate. The first electronic component is generally orthogonal to the substrate and the first device structure is oriented in a first direction, and the second device structure is oriented in a second direction different than the first direction.

An electronic device structure includes a substrate having a substrate first major surface, an opposing substrate second major surface, and a first conductive pattern adjacent to the substrate first major surface. A first electronic component is coupled to the substate and includes a first component first side and a first device structure adjacent to the first component first side. A second electronic component is adjacent to the substate second major surface and includes a second component first side and a second device structure adjacent to the second component first side. A third electronic component is coupled to the substrate. The first electronic component is generally orthogonal to the substrate and the first device structure is oriented in a first direction, and the second device structure is oriented in a second direction different than the first direction.