An integrated circuit (IC) package that is to be incorporated into a computing device may include a metallization structure with circuits and/or other elements such as capacitors or inductors thereon. Pads for input/output (I/O) (or other) purposes may also be present at different locations on the metallization structure. Exemplary aspects of the present disclosure allow mold material to be placed over the circuits and/or other elements in readily-customizable configurations so as to allow placement of the I/O pads in any desired location on the metallization structure. Specifically, before the mold material is applied to the metallization structure, a mask material such as tape may be applied to portions of the metallization structure that contain I/O pads or otherwise have reasons to not have mold material thereon. The mold material is applied, and the mask material is removed, taking unwanted mold material with the mask material.

A electronic device includes an embedded ball land substrate and a semiconductor die. The embedded ball land substrate includes a top surface, a bottom surface opposite the top surface, and one or more side surfaces adjacent the top surface and the bottom surface. The embedded ball land substrate further includes a mold layer on the bottom surface, contact pads on the top surface, and ball lands embedded in the mold layer and electrically connected to the contact pads. The semiconductor die includes a first surface, a second surface opposite the first surface, one or more side surfaces adjacent the first surface and the second surface, and attachment structures along the second surface. The semiconductor die is operatively coupled to the contact pads via the attachment structures.

A chip-on-film (CoF) package and a display apparatus, the package including a base film having an upper surface and a lower surface facing each other; a conductive line on the upper surface of the base film; a semiconductor chip on the upper surface of the base film and connected to the conductive line through a bump structure; a heat radiator on the lower surface of the base film and underlying the semiconductor chip; an adhesive layer between the lower surface of the base film and the heat radiator; and a plurality of dam structures in the adhesive layer and overlapping the bump structure.

An assembly. In some embodiments, the assembly includes a first semiconductor chip, a substrate, and a first alignment element. The alignment of the first semiconductor chip and the substrate may be determined at least in part by engagement of the first alignment element with a first recessed alignment feature, in a surface of the first semiconductor chip.

An apparatus includes an antenna array package cover comprising a radiating surface, a mating surface disposed opposite the radiating surface, and an array of antenna array sub-patterns wherein each antenna array sub-pattern comprises at least one antenna element. The antenna array package also includes an array of sub-pattern interface packages mated to the mating surface of the antenna array package cover. Each sub-pattern interface package of the array of sub-pattern interface packages comprises a package carrier, a sub-pattern integrated circuit electrically and mechanically coupled to the package carrier, and a set of interface lines corresponding to the antenna elements of the antenna array sub-pattern that corresponds to the sub-pattern interface package. Methods for mounting the above apparatus into a host circuit are also disclosed herein.

A chip-on-film (CoF) package and a display apparatus, the package including a base film having an upper surface and a lower surface facing each other; a conductive line on the upper surface of the base film; a semiconductor chip on the upper surface of the base film and connected to the conductive line through a bump structure; a heat radiator on the lower surface of the base film and underlying the semiconductor chip; an adhesive layer between the lower surface of the base film and the heat radiator; and a plurality of dam structures in the adhesive layer and overlapping the bump structure.

An integrated circuit (IC) package that is to be incorporated into a computing device may include a metallization structure with circuits and/or other elements such as capacitors or inductors thereon. Pads for input/output (I/O) (or other) purposes may also be present at different locations on the metallization structure. Exemplary aspects of the present disclosure allow mold material to be placed over the circuits and/or other elements in readily-customizable configurations so as to allow placement of the I/O pads in any desired location on the metallization structure. Specifically, before the mold material is applied to the metallization structure, a mask material such as tape may be applied to portions of the metallization structure that contain I/O pads or otherwise have reasons to not have mold material thereon. The mold material is applied, and the mask material is removed, taking unwanted mold material with the mask material.

A device that includes a first substrate comprising a first antenna, an integrated device coupled to the first substrate, an encapsulation layer located over the first substrate and the integrated device, a second substrate comprising a second antenna, and a flexible connection coupled to the first substrate and the second substrate. The device includes a shield formed over a surface of the encapsulation layer and a surface of the first substrate. The shield includes an electromagnetic interference (EMI) shield.

Provided is an electronic component including a pad region including a plurality of pads extending along corresponding extension lines and arranged in a first direction, and a signal wire configured to receive a driving signal from the pad region, wherein the plurality of pads include a plurality of first pads arranged continuously and a plurality of second pads arranged continuously, and extension lines of the plurality of first pads substantially converge into a first point and extension lines of the plurality of second pads substantially converge into a second point different from the first point.

A module includes a wiring board having a first main surface, a first component mounted on the first main surface and having a first height H1, a second component mounted on the first main surface and having a second height H2 lower than the first height H1, and a sealing resin arranged so as to cover the first component and the second component while covering the first main surface. Compared to a first connection terminal used for connection between the first component and the first main surface, a second connection terminal used for connection between the second component and the first main surface has a higher height. A surface of the first component on a side far from the first main surface and a surface of the second component on a side far from the first main surface are exposed from the sealing resin.