A device includes a redistribution structure, a first semiconductor device, a first antenna, and a first conductive pillar on the redistribution structure that are electrically connected to the redistribution structure, an antenna structure over the first semiconductor device, wherein the antenna structure includes a second antenna that is different from the first antenna, wherein the antenna structure includes an external connection bonded to the first conductive pillar, and a molding material extending between the antenna structure and the redistribution structure, the molding material surrounding the first semiconductor device, the first antenna, the external connection, and the first conductive pillar.

A module includes a substrate having a first surface and at least one recess on the first surface, and an electronic component mounted on the first surface. The electronic component is connected to the substrate via a plurality of bumps. All of the plurality of bumps are connected to the first surface inside any of the at least one recess. A height of the plurality of bumps is greater than a depth of the at least one recess. When viewed in a direction perpendicular to the first surface, a part of the electronic component is located outside an outer periphery of any recess selected from the at least one recess.

An electronic device includes a first surface and a second surface opposite the first surface and intended to connect a first electronic component to a second electronic component located on the first surface by at least one conductor track, the conductor track including a plurality of sections disposed one after the other in such a way as to form the conductor track, each section being constituted of a superconducting material chosen in such a way as to form with the section that follows it, if such a section exists, and the section that precedes it, if such a section exists, an acoustic mismatching interface (or Kapitza interface).

A package that includes a substrate, a first integrated device coupled to the substrate, and a second integrated device coupled to the first integrated device. A portion of the second integrated device overhangs over the first integrated device. The second integrated device is configured to be coupled to the substrate. The second integrated device includes a front side and a back side. The front side of the second integrated device faces the substrate.

A semiconductor package includes: a substrate structure having a first surface and an opposite second surface; a semiconductor chip on the first surface; and a connection bump on the second surface. The substrate structure includes: interconnection patterns disposed at different levels relative to the second surface; connection vias connecting the interconnection patterns; and a passivation layer covering a portion of the interconnection patterns and having an opening. The interconnection patterns include a first pattern and a second pattern, wherein the first pattern and the second pattern are adjacent to the second surface, and wherein a side surface of the first pattern faces a side surface of the second pattern. The second pattern includes a pad pattern and a metal layer in contact with the pad pattern and the connection bump. The first pattern has a first thickness and the second pattern has a pad thickness that is greater than the first thickness.

An electronic device, a package structure and an electronic manufacturing method are provided. The electronic device includes a substrate, a first bump, a second bump and a first reflowable material. The first bump is disposed over the substrate, and has a first width. An end portion of the first bump defines a first recess portion. The second bump is disposed over the substrate, and has a second width less than the first width. The first reflowable material is disposed on the first bump and extends in the first recess portion.

A semiconductor package assembly and a manufacturing method are provided. The semiconductor package assembly includes: a base plate having a first surface; a first chip structure located on the base plate and electrically connected to the first surface of the base plate; an intermediary layer having a first interconnection surface; and a molding compound. The first interconnection surface has a first and second interconnection regions. A first solder ball is formed on the first interconnection region. A first pad is formed on the second interconnection region. The intermediary layer is electrically connected to the first surface by means of the first pad. The molding compound seals the first chip structure, the intermediary layer and the first surface. The first solder ball has a surface exposed from the molding compound. There is a preset height between the exposed surface of the first solder ball and the first interconnection surface.

A package assembly may include a package substrate, a package lid attached to the package substrate and including a plate portion, an outer foot extending from the plate portion, and an inner foot extending from the plate portion inside the outer foot, and an adhesive that adheres the outer foot to the package substrate and the inner foot to the package substrate.

A method for forming a chip package structure is provided. The method includes forming a dielectric layer over a redistribution structure. The redistribution structure includes a dielectric structure and a plurality of wiring layers in or over the dielectric structure. The method includes forming a first conductive bump structure and a shield bump structure over the dielectric layer. The first conductive bump structure is electrically connected to the wiring layers, and the shield bump structure is electrically insulated from the wiring layers. The method includes bonding a first chip structure to the redistribution structure through the first conductive bump structure. The first chip structure is electrically insulated from the shield bump structure, and the first chip structure extends across a first sidewall of the shield bump structure.

A method of testing a semiconductor package is provided. The method includes forming a first metallization layer, wherein the first metallization layer includes a first conductive pad electrically connected to a charge measurement unit and a charge receiving unit; performing a first test against the charge measurement unit through the first conductive pad to determine whether breakdown occurs in the charge measurement unit; and in response to determining that no breakdown occurs in the charge measurement unit, forming a second dielectric layer over the first metallization layer, wherein a portion of the first conductive pad is exposed from the second dielectric layer.