A semiconductor package structure comprises a substrate, a die bonded to the substrate, and one or more stud bump structures connecting the die to the substrate, wherein each of the stud bump structures having a stud bump and a solder ball encapsulating the stud bump to enhance thermal dissipation and reduce high stress concentrations in the semiconductor package structure.

[Object] To provide an electronic device, a part mounting board, and an electronic apparatus that are capable of preventing warpage of a board from occurring. [Solving Means] An electronic device according to an embodiment of the present technology includes a first circuit board and a second circuit board. The first circuit board includes a first main surface, a second main surface, and a plurality of external terminals. The plurality of external terminals include a first terminal group located at an outermost periphery of the first main surface, and are arranged on the first main surface in a matrix pattern. The second circuit board includes a terminal surface facing the second main surface, and a plurality of connection terminals. The plurality of connection terminals include a second terminal group that is arranged on the terminal surface and faces at least a part of the first terminal group, and are electrically connected to the second main surface.

An electronic device includes a first electronic component including a first signal line and a first ground conductor surface, a second electronic component that is placed above the first electronic component and includes a second signal line and a second ground conductor surface opposed to the first ground conductor surface, a waveguide including the first ground conductor surface, the second ground conductor surface, and a pair of first ground conductor walls that are opposed to each other and are placed between the first ground conductor surface and the second ground conductor surface, a first transducing part that transduces a signal between the first signal line and the waveguide, and a second transducing part that transduces a signal between the second signal line and the waveguide.

Integrated circuit assemblies may contain various mold, fill, and/or underfill materials. As these integrated circuit assemblies become ever smaller, it becomes challenging to prevent voids from forming within these materials, which may affect the reliability of the integrated circuit assemblies. Since integrated circuit assemblies are generally formed by electrically attaching integrated circuit dice on electronic substrates, the present description proposes injecting the mold, fill, and/or underfill materials through openings formed in the electronic substrate to fill voids that may form and/or to prevent the formation of the voids altogether.

An integrated circuit package may be fabricated by disposing an underfill material between an electronic substrate and an integrated circuit device through an opening in the electronic substrate. In one embodiment, an integrated circuit assembly may include an electronic substrate having a first surface and an opposing second surface, wherein the electronic substrate includes at least one opening extending from the first surface to the second surface. The integrated circuit assembly may further include an integrated circuit device, wherein the integrated circuit device is electrically attached to the electronic substrate with at least one interconnect, and an underfill material may be disposed between the first surface of the electronic substrate and the integrated circuit device, wherein a portion of the underfill material extends into the opening in the electronic substrate.

In one example, an electronic device, comprises a first substrate comprising a first conductive structure, a second substrate comprising a second conductive structure, wherein the first substrate is over the second substrate, a first electronic component between the first substrate and the second substrate, a vertical interconnect between the first substrate and the second substrate, wherein the vertical interconnect is coupled with the first conductive structure and the second conductive structure, and an encapsulant between the first substrate and the second substrate and covering the vertical interconnect. A vertical port on the first electronic component is exposed by an aperture of the first substrate. Other examples and related methods are also disclosed herein.

An electronic device includes a substrate, a semiconductor die, and a molded package structure that encloses a portion of the semiconductor die and extends to a portion of the substrate. A sensor surface extends along a side of the semiconductor die, and conductive terminals extend outward from the side and have ends soldered to conductive features of the substrate. The side of the semiconductor die is spaced apart from the substrate and the conductive terminals forming a cage structure that laterally surrounds the sensor surface. The molded package structure has a cavity that extends between the sensor surface and the substrate, and the cavity extends in an interior of a cage structure formed by the conductive terminals.

A high-frequency module (1) includes a substrate (10), a first electronic component (30) and a second electronic component (40) mounted on a main surface (10a) of the substrate (10). The substrate (10) has a protruding portion (20) projecting from the main surface (10a), the first electronic component (30) is mounted in a region of the main surface (10a) different from a region in which the protruding portion (20) is provided, and the second electronic component (40) is mounted on the protruding portion (20).

A package comprising a substrate comprising a plurality of interconnects, a first integrated device coupled to the substrate, a second integrated device coupled to the substrate, and an interconnect device coupled to the substrate. The first integrated device, the second integrated device, the interconnect device and the substrate are configured to provide an electrical path for an electrical signal between the first integrated device and the second integrated device, that extends through at least the substrate, through the interconnect device and back through the substrate. The electrical path includes at least one interconnect that extends diagonally.

In one example, an electronic device, comprises a first substrate comprising a first conductive structure, a second substrate comprising a second conductive structure, wherein the first substrate is over the second substrate, a first electronic component between the first substrate and the second substrate, a vertical interconnect between the first substrate and the second substrate, wherein the vertical interconnect is coupled with the first conductive structure and the second conductive structure, and an encapsulant between the first substrate and the second substrate and covering the vertical interconnect. A vertical port on the first electronic component is exposed by an aperture of the first substrate. Other examples and related methods are also disclosed herein.