In various aspects, a package system includes at least a first package and a second package arranged on a same side of the package carrier. Each of the first package and the second package comprises an antenna to transmit and/or receive radio frequency signals. A cover may be arranged at a distance over the first package and the second package at the same side of the package carrier as the first package and the second package. The cover comprises at least one conductive element forming a predefined pattern on a side of the cover facing the first package and the second package. The predefined pattern is configured as a frequency selective surface. The package system further includes a radio frequency signal interface wirelessly connecting the antennas of the first package and the second package. The radio frequency signal interface comprises the at least one conductive element.

A substrate comprises: a first insulating layer; a second insulating layer having an elastic modulus that is different from an elastic modulus of the first insulating layer; and a core layer that is sandwiched by the first insulating layer and the second insulating layer, and is more rigid than the first insulating layer and the second insulating layer.

Implementations of semiconductor packages may include a substrate, a first die coupled on the substrate, and a lead frame coupled over the substrate. The lead frame may include a die attach pad. Implementations of semiconductor packages may also include a second die coupled on the die attach pad. The second die may overlap the first die.

A semiconductor device structure and a method for making a semiconductor device. As non-limiting examples, various aspects of this disclosure provide various semiconductor package structures, and methods for making thereof, that comprise a thin fine-pitch redistribution structure.

A module includes: a substrate including a first main surface; a first component mounted on the first main surface; a first land electrode provided on the first main surface; a first mold resin that covers at least the first main surface and the first component; a top surface shield film that covers a top surface of the first mold resin; a side surface shield film that covers a side surface of the first mold resin; a first conductor pillar provided in the first mold resin to electrically connect the first land electrode and the top surface shield film; and an upper first bypass conductor provided in the first mold resin to electrically connect the top surface shield film and the side surface shield film.

A method embodiment includes forming a patterned first photo resist over a seed layer. A first opening in the patterned first photo resist exposes the seed layer. The method further includes plating a first conductive material in the first opening on the seed layer, removing the patterned first photo resist, and after removing the patterned first photo resist, forming a patterned second photo resist over the first conductive material. A second opening in the patterned second photo resist exposes a portion of the first conductive material. The method further includes plating a second conductive material in the second opening on the first conductive material, removing the patterned second photo resist, and after removing the patterned second photo resist, depositing a dielectric layer around the first conductive material and the second conductive material.

An electronic component-embedded substrate includes a wiring structure including a plurality of insulating layers and a plurality of wiring layers and having a cavity penetrating through at least one of the plurality of insulating layers, a first electronic component disposed in the cavity, a dam structure disposed on the wiring structure and having a through-portion, a first insulating material disposed in at least a portion of each of the cavity and the through-portion, and covering at least a portion of each of the wiring structure and the first electronic component, and a first circuit layer disposed on the first insulating material.

An electronic component includes a metal member, an inductor, and a encapsulating resin. The metal member has an outer lead, an inner lead provided at a position opposed to the outer lead, and a post connecting the outer lead with the inner lead. The inductor is provided between the outer lead and the inner lead and connected to the outer lead or the inner lead. The encapsulating resin encapsulates the metal member and the inductor.

An electronic component-embedded substrate includes a wiring structure including a plurality of insulating layers and a plurality of wiring layers and having a cavity penetrating through at least one of the plurality of insulating layers, a first electronic component disposed in the cavity, a dam structure disposed on the wiring structure and having a through-portion, a first insulating material disposed in at least a portion of each of the cavity and the through-portion, and covering at least a portion of each of the wiring structure and the first electronic component, and a first circuit layer disposed on the first insulating material.

A semiconductor package structure includes a substrate structure having a first surface and a second surface opposite to the first surface; at least two electronic components electrically connected to the first surface of the substrate structure; at least one shielding pad disposed on the first surface of the substrate structure; a plurality of vias connected to the at least one shielding pad; a plurality of shielding wirebonds disposed between the electronic components. Each of the shielding wirebonds includes a first bond and a second bond opposite to the first bond, the first bond and the second bond being electrically connected to the at least one shielding pad, and the vias being free from overlapping with any of the plurality of vias.