A semiconductor module includes first and second semiconductor chips including first and second main electrodes, respectively; first and second connection terminals electrically connected to the first and second main electrodes, respectively; and an insulating sheet. The first connection terminal includes a first conductor portion including a first peripheral edge and a first terminal portion extending from the first peripheral edge in plan view, and the second connection terminal includes a second conductor portion including a second peripheral edge. A part of the first conductor portion overlap a part of the second conductor portion in plan view. The insulating sheet includes an insulating portion layered between the first and second conductor portions, and a first protruding portion positioned between a tip portion of the first terminal portion and the second peripheral edge in plan view, the first protruding portion forming an angle relative to a surface of the first terminal portion.

A semiconductor module includes first and second semiconductor chips including first and second main electrodes, respectively; first and second connection terminals electrically connected to the first and second main electrodes, respectively; and an insulating sheet. The first connection terminal includes a first conductor portion including a first peripheral edge and a first terminal portion extending from the first peripheral edge in plan view, and the second connection terminal includes a second conductor portion including a second peripheral edge. A part of the first conductor portion overlap a part of the second conductor portion in plan view. The insulating sheet includes an insulating portion layered between the first and second conductor portions, and a first protruding portion positioned between a tip portion of the first terminal portion and the second peripheral edge in plan view, the first protruding portion forming an angle relative to a surface of the first terminal portion.

A semiconductor device includes: a conductive base substrate; a semiconductor chip mounted on the base substrate and having a signal pad; a frame configured to surround the semiconductor chip, to be mounted on the base substrate, and to include a step having an inner first upper surface and an outer second upper surface higher than the first upper surface in a plan view, wherein a first conductor pattern provided on the first upper surface is electrically connected to the base substrate; a capacitive component mounted on the first conductor pattern; a signal terminal mounted on the second upper surface of the frame; a first bonding wire configured to electrically connect the signal pad and an upper surface of the capacitive component; and a second bonding wire configured to electrically connect the upper surface of the capacitive component and the signal terminal.

A semiconductor device includes: a conductive base substrate; a semiconductor chip mounted on the base substrate and having a signal pad; a frame configured to surround the semiconductor chip, to be mounted on the base substrate, and to include a step having an inner first upper surface and an outer second upper surface higher than the first upper surface in a plan view, wherein a first conductor pattern provided on the first upper surface is electrically connected to the base substrate; a capacitive component mounted on the first conductor pattern; a signal terminal mounted on the second upper surface of the frame; a first bonding wire configured to electrically connect the signal pad and an upper surface of the capacitive component; and a second bonding wire configured to electrically connect the upper surface of the capacitive component and the signal terminal.

Example embodiments relate to lead frame based molded radio frequency packages. One example package includes a substrate. The package also includes a first electrical component arranged on the substrate. Additionally, the package includes a second electrical component. Further, the package includes a plurality of leads that are arranged spaced apart from the substrate and fixed in position relative thereto by a solidified molding compound. The leads were part of a lead frame prior to separating the package from the lead frame. The substrate was physically and electrically connected to the lead frame using a plurality of spaced apart connecting members prior to separating the package from the lead frame. During the separating of the package from the lead frame, each connecting member was divided into a first connecting member part and a second connecting member part. In addition, the package includes a frame part.

RF transistor amplifiers include an RF transistor amplifier die having a Group III nitride-based semiconductor layer structure and a plurality of gate terminals, a plurality of drain terminals, and at least one source terminal that are each on an upper surface of the semiconductor layer structure, an interconnect structure on an upper surface of the RF transistor amplifier die, and a coupling element between the RF transistor amplifier die and the interconnect structure that electrically connects the gate terminals, the drain terminals and the source terminal to the interconnect structure.

RF transistor amplifiers include an RF transistor amplifier die having a Group III nitride-based semiconductor layer structure and a plurality of gate terminals, a plurality of drain terminals, and at least one source terminal that are each on an upper surface of the semiconductor layer structure, an interconnect structure on an upper surface of the RF transistor amplifier die, and a coupling element between the RF transistor amplifier die and the interconnect structure that electrically connects the gate terminals, the drain terminals and the source terminal to the interconnect structure.

A transistor package that includes a metal submount; a transistor die mounted on said metal submount; a surface mount IPD component that includes a dielectric substrate; and the dielectric substrate mounted on said metal submount. Additionally, the dielectric substrate includes one of the following: an irregular shape, a non-square shape, and a nonrectangular shape.

A transistor package that includes a metal submount; a transistor die mounted on said metal submount; a surface mount IPD component that includes a dielectric substrate; and the dielectric substrate mounted on said metal submount. Additionally, the dielectric substrate includes one of the following: an irregular shape, a non-square shape, and a nonrectangular shape.

The present invention relates to a molded air-cavity package. In addition, the present invention is related to a device comprising the same. The present invention is particularly related to molded air-cavity packages for radio-frequency ‘RF’ applications including but not limited to RF power amplifiers. Instead of using hard-stop features that are arranged around the entire perimeter of the package in a continuous manner, the present invention proposes to use spaced apart pillars formed by first and second cover supporting elements. By using only a limited amount of pillars, e.g. three or four, the position of the cover relative to the body can be defined in a more predictable manner. This particularly holds if the pillars are arranged in the outer corners of the package.