A semiconductor device package is disclosed. The package according to one example includes a base having a main surface made of a metal, a dielectric side wall having a bottom surface facing the main surface, a joining material containing silver (Ag) and joining the main surface of the base and the bottom surface of the side wall to each other, a lead made of a metal joined to an upper surface of the side wall on a side opposite to the bottom surface, and a conductive layer not containing silver (Ag). The conductive layer is provided between the bottom surface and the upper surface of the side wall at a position overlapping the lead when viewed from a normal direction of the main surface. The conductive layer is electrically connected to the joining material, extends along the bottom surface, and is exposed from a lateral surface of the side wall.

A wiring base includes a base having a first surface, at least one metal layer positioned on the first surface, at least one lead terminal positioned on the metal layer, and a joining member that is positioned on the metal layer and joins the lead terminal to the metal layer. The lead terminal has a first portion to be in contact with the joining member and also has a second portion being continuous with the first portion. In a cross section of the lead terminal orthogonal to a longitudinal direction of the lead terminal, the first portion has two concave surfaces that are formed near the metal layer so as to be disposed opposite to each other across a center in a transverse direction of the lead terminal.

A package including a frame having an opening for receiving a sensor module, wherein the frame comprises at least one electrical connection which is directed into the opening and which is arranged on an insulation layer applied to the frame, and wherein the insulation layer is connected to the frame at an insertion side of the frame, from which side the sensor module is to be inserted into the opening, and is bent along the inner side of the frame proceeding from the insertion side, such that the at least one electrical connection directed to the opening is electrically couplable to the associated sensor module connection in an arrangement.

A package including a frame having an opening for receiving a sensor module, wherein the frame comprises at least one electrical connection which is directed into the opening and which is arranged on an insulation layer applied to the frame, and wherein the insulation layer is connected to the frame at an insertion side of the frame, from which side the sensor module is to be inserted into the opening, and is bent along the inner side of the frame proceeding from the insertion side, such that the at least one electrical connection directed to the opening is electrically couplable to the associated sensor module connection in an arrangement.

A method of manufacturing a packaged semiconductor device includes forming an assembly by placing a semiconductor die over a substrate with a die attach material between the semiconductor die and the substrate. A conformal structure which includes a pressure transmissive material contacts at least a portion of a top surface of the semiconductor die. A pressure is applied to the conformal structure and in turn, the pressure is transmitted to the top surface of the semiconductor die by the pressure transmissive material. While the pressure is applied, concurrently encapsulating the assembly with a molding compound and exposing the assembly to a temperature that is sufficient to cause the die attach material to sinter.

A method of manufacturing a packaged semiconductor device includes forming an assembly by placing a semiconductor die over a substrate with a die attach material between the semiconductor die and the substrate. A conformal structure which includes a pressure transmissive material contacts at least a portion of a top surface of the semiconductor die. A pressure is applied to the conformal structure and in turn, the pressure is transmitted to the top surface of the semiconductor die by the pressure transmissive material. While the pressure is applied, concurrently encapsulating the assembly with a molding compound and exposing the assembly to a temperature that is sufficient to cause the die attach material to sinter.

Disclosed is a semiconductor device including a semiconductor die, a base member, a side wall, first and second conductive films, and first and second conductive leads. The base member has a conductive main surface including a region that mounts the semiconductor die. The side wall surrounds the region and is made of a dielectric. The side wall includes first and second portions. The first and second conductive films are provided on the first and second portions, respectively and are electrically connected to the semiconductor die. The first and second conductive leads are conductively bonded to the first and second conductive films, respectively. At least one of the first and second portions includes a recess on its back surface facing the base member, and the recess defines a gap between the at least one of the first and second portions below the corresponding conductive film and the base member.

Disclosed is a semiconductor device including a semiconductor die, a base member, a side wall, first and second conductive films, and first and second conductive leads. The base member has a conductive main surface including a region that mounts the semiconductor die. The side wall surrounds the region and is made of a dielectric. The side wall includes first and second portions. The first and second conductive films are provided on the first and second portions, respectively and are electrically connected to the semiconductor die. The first and second conductive leads are conductively bonded to the first and second conductive films, respectively. At least one of the first and second portions includes a recess on its back surface facing the base member, and the recess defines a gap between the at least one of the first and second portions below the corresponding conductive film and the base member.

A semiconductor device in which occurrence of peeling between a filling member and a metal terminal is suppressed is obtained. The semiconductor device includes: an insulating substrate having a front surface and a back surface, and having a semiconductor element joined to the front surface; a base plate joined to the back surface of insulating substrate; a case member surrounding insulating substrate; a filling member having an upper surface, covering insulating substrate, and filling a region surrounded by base plate and case member; and a metal member having a plate shape that leans toward an upper surface side of filling member inside filling member, has one end joined to the front surface of insulating substrate and another end separated from an inner wall of case member, and is exposed from the upper surface of filling member.

A semiconductor device in which occurrence of peeling between a filling member and a metal terminal is suppressed is obtained. The semiconductor device includes: an insulating substrate having a front surface and a back surface, and having a semiconductor element joined to the front surface; a base plate joined to the back surface of insulating substrate; a case member surrounding insulating substrate; a filling member having an upper surface, covering insulating substrate, and filling a region surrounded by base plate and case member; and a metal member having a plate shape that leans toward an upper surface side of filling member inside filling member, has one end joined to the front surface of insulating substrate and another end separated from an inner wall of case member, and is exposed from the upper surface of filling member.