A semiconductor device package and a method of forming the same are provided. The semiconductor device package includes a substrate, an electronic component, a ring structure, and an adhesive layer. The electronic component is located over a first surface of the substrate. The ring structure is located over the first surface of the substrate and surrounding the electronic component. The ring structure has a bottom surface facing the first surface of the substrate and a top surface opposite the bottom surface. The ring structure includes a plurality of side parts and a plurality of corner parts recessed from the top surface and thinner than the side parts. Any two of the corner parts are separated from one another by one of the side parts. The adhesive layer is interposed between the bottom surface of the ring structure and the first surface of the substrate.

A semiconductor device package and a method of forming the same are provided. The semiconductor device package includes a substrate, an electronic component, a ring structure, and an adhesive layer. The electronic component is located over a first surface of the substrate. The ring structure is located over the first surface of the substrate and surrounding the electronic component. The ring structure has a bottom surface facing the first surface of the substrate and a top surface opposite the bottom surface. The ring structure includes a plurality of side parts and a plurality of corner parts recessed from the top surface and thinner than the side parts. Any two of the corner parts are separated from one another by one of the side parts. The adhesive layer is interposed between the bottom surface of the ring structure and the first surface of the substrate.

A power module (10) and a manufacturing method thereof are disclosed. The power module (10) includes a power assembly (11) and a drive board (12). The power assembly (11) includes a substrate (111), a power chip (112), and a package body (113). The power chip (112) is disposed on a mounting surface (1110) of the substrate (111). The package body (113) packages the power chip (112) on the substrate (111). The drive board (12) is disposed in the package body (113) and is located on a side, of the power chip (112), that backs the mounting surface (1110). The drive board (12) is electrically connected to the power chip (112). In the power module, a parasitic parameter between the drive board (12) and the power assembly (11) can be reduced, thereby improving electrical performance of the power module (10).

A package has a package body formed by stacked insulating layers and having a front surface including a mounting area, a back surface and a side surface; a plurality of hollow portions arranged so as to be adjacent to each other on the front surface of the package body; a plurality of electrode pads individually placed on respective bottom surfaces of the hollow portions; and a partition wall formed by at least one insulating layer that forms the package body and having protruding banks at its both edge sides. Surfaces of the electrode pads are located at a lower position with respect to the front surface of the package body. The hollow portions are arranged at opposite sides of the partition wall. The electrode pads are electrically connected to respective conductor layers that are formed on the back surface and/or the side surface of the package body.

A package has a package body formed by stacked insulating layers and having a front surface including a mounting area, a back surface and a side surface; a plurality of hollow portions arranged so as to be adjacent to each other on the front surface of the package body; a plurality of electrode pads individually placed on respective bottom surfaces of the hollow portions; and a partition wall formed by at least one insulating layer that forms the package body and having protruding banks at its both edge sides. Surfaces of the electrode pads are located at a lower position with respect to the front surface of the package body. The hollow portions are arranged at opposite sides of the partition wall. The electrode pads are electrically connected to respective conductor layers that are formed on the back surface and/or the side surface of the package body.

A semiconductor device includes: an insulating substrate; a semiconductor chip; a base plate; a first heat dissipating material; and a case. The semiconductor chip and a sealing material for sealing the semiconductor chip are housed in the case. The insulating substrate includes an insulating layer and a conductor pattern provided on an upper surface of the insulating layer. The semiconductor chip is joined onto the conductor pattern by a joining material. A lower surface of the insulating substrate and an upper surface of the base plate are in contact with each other with interposition of the first heat dissipating material. The insulating substrate and the base plate are not fixed to each other.

A semiconductor device includes: an insulating substrate; a semiconductor chip; a base plate; a first heat dissipating material; and a case. The semiconductor chip and a sealing material for sealing the semiconductor chip are housed in the case. The insulating substrate includes an insulating layer and a conductor pattern provided on an upper surface of the insulating layer. The semiconductor chip is joined onto the conductor pattern by a joining material. A lower surface of the insulating substrate and an upper surface of the base plate are in contact with each other with interposition of the first heat dissipating material. The insulating substrate and the base plate are not fixed to each other.

A semiconductor device includes: a case having an opening; a semiconductor element contained in the case; a control substrate which is disposed above the semiconductor element in the case and on which a control circuit to control the semiconductor element is disposed; a lid to cover the opening of the case; and a control terminal having one end portion connected to the control circuit disposed on the control substrate and the other end portion protruding out of the case. The control terminal has a bend in the case, and a side portion of the case or the lid is provided with a support capable of supporting the bend.

A semiconductor device includes a case enclosing a region filled with a sealing material. The case is made of resin. An electrode is fixed to the case. A section, which is a part of the electrode, is provided with a cutout that allows a part of the resin making the case to be exposed to the region.

There are provided a semiconductor module capable of preventing the peeling of a sealing resin on the side where a connection section used for the connection to a semiconductor element is arranged and a manufacturing method for a semiconductor module. A semiconductor module includes: an outer frame; sealing resins; gate signal output terminals, and partition sections laid across the outer flame to partition a space into a plurality of housing sections, in the partition sections which the gate signal output terminals with connection sections exposed are arranged. The partition sections have through holes where sealing resins are formed, the sealing resins connecting adjacent housing sections and the sealing resin formed in the through hole being continuous with the sealing resins formed in the housing sections.