The present disclosure provides a chip packaging structure and a chip packaging method, relating to the technical field of chip packaging. In the above, the chip packaging structure includes: a substrate, wherein a light-transmitting hole penetrating through upper and lower surfaces thereof is provided on the substrate, and openings communicated with the light-transmitting hole are formed on two opposite sidewall surfaces of the substrate, respectively; light-transmitting glass, wherein two opposite sides of the light-transmitting glass are inserted into the two openings, respectively, and shield the light-transmitting hole; a chip, provided on the upper surface of the substrate, wherein a photosensitive area of the chip faces the light-transmitting glass; and a packaging layer, provided on the chip and the upper surface of the substrate so as to package the chip on the substrate.

A semiconductor package includes a supporting wiring structure including a first redistribution dielectric layer and a first redistribution conductive structure; a frame on the supporting wiring structure, having a mounting space and a through hole, and including a conductive material; a semiconductor chip in the mounting space and electrically connected to the first redistribution conductive structure; a cover wiring structure on the frame and the semiconductor chip and including a second redistribution dielectric layer and a second redistribution conductive structure; an antenna structure on the cover wiring structure; a connection structure extending in the through hole and electrically connecting the first redistribution conductive structure to the second redistribution conductive structure; and a dielectric filling member between the connection structure in the through hole and the frame and surrounding the semiconductor chip, the frame, and the connection structure.

A semiconductor package includes a supporting wiring structure including a first redistribution dielectric layer and a first redistribution conductive structure; a frame on the supporting wiring structure, having a mounting space and a through hole, and including a conductive material; a semiconductor chip in the mounting space and electrically connected to the first redistribution conductive structure; a cover wiring structure on the frame and the semiconductor chip and including a second redistribution dielectric layer and a second redistribution conductive structure; an antenna structure on the cover wiring structure; a connection structure extending in the through hole and electrically connecting the first redistribution conductive structure to the second redistribution conductive structure; and a dielectric filling member between the connection structure in the through hole and the frame and surrounding the semiconductor chip, the frame, and the connection structure.

In one example, an electronic device comprises a base substrate comprising a base substrate conductive structure, a first electronic component over a first side of the base substrate, an encapsulant over the first side of the base substrate, wherein the encapsulant contacts a lateral side of the electronic component, an interposer substrate over a first side of the encapsulant and comprising an interposer substrate conductive structure, and a vertical interconnect in the encapsulant and coupled with the base substrate conductive structure and the interposer substrate conductive structure. A first one of the base substrate or the interposer substrate comprises a redistribution layer (RDL) substrate, and a second one of the base substrate or the interposer substrate comprises a laminate substrate. Other examples and related methods are also disclosed herein.

Disclosed are semiconductor packages and methods of manufacturing the same. The method of manufacturing a semiconductor package may include providing a carrier substrate having a trench formed on a first top surface of the carrier substrate, providing a first semiconductor chip on the carrier substrate, mounting at least one second semiconductor chip on a second top surface of the first semiconductor chip, coating a mold member to surround a first lateral surface of the first semiconductor chip and a second lateral surface of the at least one second semiconductor chip, and curing the mold member to form a mold layer. The trench may be provided along a first edge of the first semiconductor chip. The mold member may cover a second edge of a bottom surface the first semiconductor chip.

Embodiments include semiconductor packages and methods to form the semiconductor packages. A semiconductor package includes a plurality of first dies on a substrate, an interface layer over the first dies, a backside metallization (BSM) layer directly on the interface layer, where the BSM layer includes first, second, and third conductive layer, and a heat spreader over the BSM layer. The first conductive layer includes a titanium material. The second conductive layer includes a nickel-vanadium material. The third conductive layer includes a gold material, a silver material, or a copper material. The copper material may include copper bumps. The semiconductor package may include a plurality of second dies on a package substrate. The substrate may be on the package substrate. The second dies may have top surfaces substantially coplanar to top surface of the first dies. The BSM and interface layers may be respectively over the first and second dies.

A semiconductor device includes a first semiconductor chip having a first surface and a second surface; a first adhesive layer on the first surface; a second semiconductor chip that includes a third surface and a fourth surface, and a connection bump on the third surface. The connection bump is coupled to the first adhesive layer. The semiconductor device includes a wiring substrate connected to the connection bump. The semiconductor device includes a first resin layer covering the connection bump between the second semiconductor chip and the wiring substrate, and covers one side surface of the second semiconductor chip connecting the third surface and the fourth surface. The first adhesive layer covers an upper portion of the at least one side surface. The first resin layer covers a lower portion of the t least one side surface. The first adhesive layer and the first resin layer contact each other.

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.

According to an embodiment of the invention, a semiconductor device comprises a substrate, a semiconductor die and a first shielding structure. The semiconductor die is disposed on the substrate and comprises an electronic device. The first shielding structure is formed outside of the semiconductor die and disposed under the electronic device.

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.