The present disclosure provides a camera assembly and a packaging method thereof, a lens module, and an electronic device. The packaging method of the camera assembly includes: providing a carrier substrate and forming a redistribution layer (RDL) structure on the carrier substrate; providing functional components having solder pads; forming a photosensitive unit, including a photosensitive chip and an optical filter mounted on the photosensitive chip, that the photosensitive chip has solder pads facing the optical filter; temporarily bonding the optical filter of the photosensitive unit with the carrier substrate, and placing the functional components on the RDL structure, that each of the solder pads of the photosensitive chip and the solder pads of the functional components faces the RDL structure and electrically connects with the RDL structure; forming an encapsulation layer covering the carrier substrate, that the encapsulation layer is coplanar with a highest top of the photosensitive chip and the functional components; and removing the carrier substrate.

A semiconductor device includes a first plurality of dies encapsulated by an encapsulant, an interposer over the first plurality of dies, an interconnect structure over and electrically connected to the interposer, and a plurality of conductive pads on a surface of the interconnect structure opposite the interposer. The interposer includes a plurality of embedded passive components. Each die of the first plurality of dies is electrically connected to the interposer. The interconnect structure includes a solenoid inductor in a metallization layer of the interconnect structure.

An embodiment method for forming a semiconductor package includes attaching a first die to a first carrier, depositing a first isolation material around the first die, and after depositing the first isolation material, bonding a second die to the first die. Bonding the second die to the first die includes forming a dielectric-to-dielectric bond. The method further includes removing the first carrier and forming fan-out redistribution layers (RDLs) on an opposing side of the first die as the second die. The fan-out RDLs are electrically connected to the first die and the second die.

A semiconductor device includes a first plurality of dies encapsulated by an encapsulant, an interposer over the first plurality of dies, an interconnect structure over and electrically connected to the interposer, and a plurality of conductive pads on a surface of the interconnect structure opposite the interposer. The interposer includes a plurality of embedded passive components. Each die of the first plurality of dies is electrically connected to the interposer. The interconnect structure includes a solenoid inductor in a metallization layer of the interconnect structure.

A die stack structure including a first die, an encapsulant, a redistribution layer and a second die is provided. The encapsulant laterally encapsulates the first die. The redistribution layer is disposed below the encapsulant, and electrically connected with the first die. The second die is disposed between the redistribution layer and the first die, wherein the first and second dies are electrically connected with each other, the second die comprises a body portion having a first side surface, a second side surface and a curved side surface therebetween, and the curved side surface connects the first side surface and the second side surface.

A die stack structure including a first die, an encapsulant, a redistribution layer and a second die is provided. The encapsulant laterally encapsulates the first die. The redistribution layer is disposed below the encapsulant, and electrically connected with the first die. The second die is disposed between the redistribution layer and the first die, wherein the first and second dies are electrically connected with each other, the second die comprises a body portion having a first side surface, a second side surface and a curved side surface therebetween, and the curved side surface connects the first side surface and the second side surface.

A semiconductor package includes a first semiconductor die, a second semiconductor die and a plurality of bumps. The first semiconductor die has a front side and a backside opposite to each other. The second semiconductor die is disposed at the backside of the first semiconductor die and electrically connected to first semiconductor die. The plurality of bumps is disposed at the front side of the first semiconductor die and physically connects first die pads of the first semiconductor die. A total width of the first semiconductor die may be less than a total width of the second semiconductor die.

A semiconductor die bonding structure includes a lower die including a lower top bonding dielectric layer and a lower connection structure and an upper die stacked over the lower die and including an upper bottom bonding dielectric layer and an upper connection structure. The lower top bonding dielectric layer and the upper bottom bonding dielectric layer are connected. The lower connection structure and the upper connection structure are connected.

A semiconductor package provided herein includes a first semiconductor die, a second semiconductor die and an insulating encapsulation. The second semiconductor die is stacked on the first semiconductor die. The insulating encapsulation laterally surrounds the first semiconductor die and the second semiconductor die in a one-piece form, and has a first sidewall and a second sidewall respectively adjacent to the first semiconductor die and the second semiconductor die. The first sidewall keeps a lateral distance from the second sidewall.

Methods and devices include a chip package structure, including a first semiconductor die, a second semiconductor die, a redistribution structure, and a first underfill material portion located between the redistribution structure and the first semiconductor die and the second semiconductor die. The redistribution structure includes a first redistribution structure portion physically and electrically connected to the first semiconductor die, a second redistribution structure portion physically and electrically connected to the second semiconductor die, and a dummy bump region positioned between and electrically isolated from the first redistribution structure portion and the second redistribution structure portion.