A semiconductor package may include a base, a first chip on the base, and first connection patterns that connect and couple the base and the first chip. The first chip may include a substrate, pad patterns on the substrate, a passivation layer on the substrate and having openings, and pillars on the substrate, the pad patterns include a first signal pad and a second signal pad, the first connection patterns are in contact with the pillars, the pillars include a first signal pillar in contact with the first signal pad and a second signal pillar in contact with the second signal pad, the openings in the passivation layer include a first opening having a sidewall facing a side surface of the first signal pillar and surrounding the side surface of the first signal pillar, and a second opening having a sidewall facing a side surface of the second signal pillar and surrounding the side surface of the second signal pillar, and a maximum width of the second opening is greater than a maximum width of the first opening.

A semiconductor device having an integrated antenna is provided. The semiconductor device includes a base die having an integrated circuit formed at an active surface and a cap die bonded to the backside surface of the base die. A metal trace is formed over a top surface of the cap die. A cavity is formed under the metal trace. A conductive via is formed through the base die and the cap die interconnecting the metal trace and a conductive trace of the integrated circuit.

A method of forming an integrated circuit package includes attaching a first die to an interposer. The interposer includes a first die connector and a second die connector on the interposer and a first dielectric layer covering at least one sidewall of the first die connector and at least one sidewall of the second die connector. The first die is coupled to the first die connector and to the first dielectric layer and the second die connector is exposed by the first die. The method further includes recessing the first dielectric layer to expose at least one sidewall of the second die connector and attaching a second die to the interposer, the second die being coupled to the second die connector.

A package structure is provided. The package structure includes a redistribution structure and a first semiconductor die over the redistribution structure. The package structure also includes a wall structure laterally surrounding the first semiconductor die and the wall structure includes a plurality of partitions separated from one another. The package structure also includes an underfill material between the wall structure and the first semiconductor die. The package structure also includes a molding compound encapsulating the wall structure and the underfill material.

A semiconductor device including a relatively thin interposer excluding a through silicon hole and a manufacturing method thereof are provided. The method includes forming an interposer on a dummy substrate. The forming of the interposer includes, forming a dielectric layer on the dummy substrate, forming a pattern and a via on the dielectric layer, and forming a seed layer at the pattern and the via of the dielectric layer and forming a redistribution layer and a conductive via on the seed layer. A semiconductor die is connected with the conductive via facing an upper portion of the interposer, and the semiconductor die is encapsulated with an encapsulant. The dummy substrate is removed from the interposer. A bump is connected with the conductive via facing a lower portion of the interposer.

The present disclosure relates to a radio frequency (RF) device including a device substrate, a thinned device die with a device region over the device substrate, a first mold compound, and a second mold compound. The device region includes an isolation portion, a back-end-of-line (BEOL) portion, and a front-end-of-line (FEOL) portion with a contact layer and an active section. The contact layer resides over the BEOL portion, the active section resides over the contact layer, and the isolation portion resides over the contact layer to encapsulate the active section. The first mold compound resides over the device substrate, surrounds the thinned device die, and extends vertically beyond the thinned device die to define an opening over the thinned device die and within the first mold compound. The second mold compound fills the opening and directly connects the isolation portion of the thinned device die.

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.

According to one or more embodiments, a semiconductor package includes: a first semiconductor chip including an upper surface, a lower surface, and a side surface and including a chip pad provided on the upper surface; a first cover insulating layer covering the upper surface and the side surface of the first semiconductor chip; a first upper conductive layer extending along an upper surface of the first cover insulating layer and connected to the chip pad of the first semiconductor chip; a first side conductive layer extending along a side surface of the first cover insulating layer and connected to the first upper conductive layer; a second cover insulating layer covering the first upper conductive layer, the first side conductive layer, and the first cover insulating layer; and a first lower conductive layer extending along the lower surface of the first semiconductor chip and connected to the first side conductive layer.

A semiconductor package includes a first base plate, first semiconductor structure, second base plate and filling layer. The first base plate has a first surface including first and second signal transmission regions. The first semiconductor structure located on the first surface is electrically connected to the first signal transmission region. The second base plate located on the first base plate includes a base and a first interconnection surface. The first interconnection surface is away from the first surface. The first interconnection surface has first and second interconnection regions communicated with each other. The first interconnection region is electrically connected to the second signal transmission region. The filling layer seals the first semiconductor structure, second base plate and first surface. The first interconnection region is not sealed, and the second interconnection region is. There is a preset height between a top surface of the filling layer and the first interconnection region.

A method of manufacturing a semiconductor package includes preparing a wafer structure having a first semiconductor substrate and a plurality of first front surface connection pads. A lower semiconductor chip having a preliminary semiconductor substrate and a plurality of second front surface connection pads are attached to the wafer structure such that the plurality of first front surface connection pads and the plurality of second front surface connection pads correspond to each other. A plurality of bonding pads is formed by bonding together the plurality of first front surface connection pads and the plurality of second front surface connection pads corresponding to each other. A second semiconductor substrate having a horizontal width that is less than that of the second wiring structure is formed by removing a portion of the preliminary semiconductor substrate.