Embodiments of the present disclosure describe scalable package architecture of an integrated circuit (IC) assembly and associated techniques and configurations. In one embodiment, an integrated circuit (IC) assembly includes a package substrate having a first side and a second side disposed opposite to the first side, a first die having an active side coupled with the first side of the package substrate and an inactive side disposed opposite to the active side, the first die having one or more through-silicon vias (TSVs) configured to route electrical signals between the first die and a second die, and a mold compound disposed on the first side of the package substrate, wherein the mold compound is in direct contact with a sidewall of the first die between the active side and the inactive side and wherein a distance between the first side and a terminating edge of the mold compound that is farthest from the first side is equal to or less than a distance between the inactive side of the first die and the first side. Other embodiments may be described and/or claimed.

A wiring substrate includes a first substrate and an electronic component mounted on an upper surface of the first substrate. A first pad is formed on an uppermost wiring layer of the first substrate. A connection terminal is formed on the electronic component and is located proximate to the first pad in a plan view. The wiring substrate further includes a connection member formed on the first pad to electrically connect the first pad and the connection terminal. The connection member includes a rod-shaped core and a solder layer, which is coated around the core and joined to the first pad. The solder layer includes a bulge that spreads from the core of the connection member in a planar direction. The bulge is joined to the connection terminal of the electronic component.

A semiconductor package includes a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a first semiconductor structure and a second semiconductor structure that are on the first semiconductor chip and spaced apart from each other across the second semiconductor chip, and a resin-containing member between the second semiconductor chip and the first semiconductor structure and between the second semiconductor chip and the second semiconductor structure. The semiconductor package may be fabricated at a wafer level.

A semiconductor package includes a substrate having a first surface and a second surface opposing the first surface; a plurality of first pads disposed on the first surface of the substrate and a plurality of second pads disposed on the second surface of the substrate and electrically connected to the plurality of first pads; a semiconductor chip disposed on the first surface of the substrate and connected to the plurality of first pads; a dummy chip having a side surface facing one side surface of the semiconductor chip, disposed on the first surface of the substrate spaced apart from the semiconductor chip in a direction parallel to the first surface of the substrate, the dummy chip having an upper surface positioned lower than an upper surface of the semiconductor chip in a direction perpendicular to the first surface of the substrate; an underfill disposed between the semiconductor chip and the first surface of the substrate, and having an extension portion extended along the facing side surfaces of the semiconductor chip and the dummy chip in the direction perpendicular to the first surface of the substrate, an upper end of the extension portion being disposed to be lower than the upper surface of the semiconductor chip; and a sealing material disposed on the first surface of the substrate, and sealing the semiconductor chip and the dummy chip.

A semiconductor package comprising a package substrate that has a recessed portion on a top surface thereof, a lower semiconductor chip in the recessed portion of the package substrate, an upper semiconductor chip on the lower semiconductor chip and the package substrate and having a width greater than that of the lower semiconductor chip, a plurality of first bumps directly between the package substrate and the upper semiconductor chip, and a plurality of second bumps directly between the lower semiconductor chip and the upper semiconductor chip. A pitch of the second bumps is less than that of the first bumps.

A semiconductor package includes a first package substrate, a first semiconductor chip on the first package substrate, a plurality of first chip connection units to connect the first package substrate to the first semiconductor chip, an interposer on the first semiconductor chip, the interposer having a width greater than a width of the first semiconductor chip in a direction parallel to an upper surface of the first package substrate, and an upper filling layer including a center portion and an outer portion, the center portion being between the first semiconductor chip and the interposer, and the outer portion surrounding the center portion and having a thickness greater than a thickness of the center portion in a direction perpendicular to the upper surface of the first package substrate.

Various embodiments include a circuit carrier comprising: an installation place for an electronic component; and a deposit of a joining adjuvant applied to the installation place. The installation place has at an edge, a recess forming a depression in a surface of the circuit carrier. The deposit comprises a sintered material with a protuberance at an edge of the deposit.

A semiconductor package includes a substrate having a first surface and a second surface opposing the first surface; a plurality of first pads disposed on the first surface of the substrate and a plurality of second pads disposed on the second surface of the substrate and electrically connected to the plurality of first pads; a semiconductor chip disposed on the first surface of the substrate and connected to the plurality of first pads; a dummy chip having a side surface facing one side surface of the semiconductor chip, disposed on the first surface of the substrate spaced apart from the semiconductor chip in a direction parallel to the first surface of the substrate, the dummy chip having an upper surface positioned lower than an upper surface of the semiconductor chip in a direction perpendicular to the first surface of the substrate; an underfill disposed between the semiconductor chip and the first surface of the substrate, and having an extension portion extended along the facing side surfaces of the semiconductor chip and the dummy chip in the direction perpendicular to the first surface of the substrate, an upper end of the extension portion being disposed to be lower than the upper surface of the semiconductor chip; and a sealing material disposed on the first surface of the substrate, and sealing the semiconductor chip and the dummy chip.

Aspects of the present disclosure relate to a molded electronic package and a method for manufacturing the same. The molded electronic package includes a first substrate, a second substrate, an electronic component arranged on the first substrate, a spring member arranged between the second substrate and the electronic component, the spring member including a first contact portion being fixated relative to the second substrate, and a second contact portion physically contacting the electronic component, and a body of solidified molding compound configured to encapsulate the electronic component and the spring member and to mutually fixate the first substrate, the second substrate, the electronic component and the spring member. The second substrate and the spring member are electrically and/or thermally conductive.

A semiconductor package includes a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a first semiconductor structure and a second semiconductor structure that are on the first semiconductor chip and spaced apart from each other across the second semiconductor chip, and a resin-containing member between the second semiconductor chip and the first semiconductor structure and between the second semiconductor chip and the second semiconductor structure. The semiconductor package may be fabricated at a wafer level.