A semiconductor packaging structure manufactured in a manner which does not leave the chip damaged or susceptible to damage upon the removal of temporary manufacturing supports includes at least one electrical conductor, at least one conductive layer, a chip, and a colloid. The chip is spaced from the conductive layer, the electrical conductor is disposed between the conductive layer and the chip and electrically connects the conductive layer to the chip. The colloid covers all outer surfaces of the chip. A method of fabricating such a semiconductor packaging structure is also provided.

A semiconductor packaging structure manufactured in a manner which does not leave the chip damaged or susceptible to damage upon the removal of temporary manufacturing supports includes at least one electrical conductor, at least one conductive layer, a chip, and a colloid. The chip is spaced from the conductive layer, the electrical conductor is disposed between the conductive layer and the chip and electrically connects the conductive layer to the chip. The colloid covers all outer surfaces of the chip. A method of fabricating such a semiconductor packaging structure is also provided.

A package that includes a substrate, a first integrated device coupled to the substrate, a first block device coupled to the substrate, a second encapsulation layer encapsulating the first integrated device and the first block device. The first block device includes a first electrical component, a second electrical component, a first encapsulation layer at least partially encapsulating the first electrical component and the second electrical component, and a first metal layer coupled to the first encapsulation layer.

A package that includes a substrate, a first integrated device coupled to the substrate, a first block device coupled to the substrate, a second encapsulation layer encapsulating the first integrated device and the first block device. The first block device includes a first electrical component, a second electrical component, a first encapsulation layer at least partially encapsulating the first electrical component and the second electrical component, and a first metal layer coupled to the first encapsulation layer.

A method includes forming an interconnect component including a plurality of dielectric layers that include an organic dielectric material, and a plurality of redistribution lines extending into the plurality of dielectric layers. The method further includes bonding a first package component and a second package component to the interconnect component, encapsulating the first package component and the second package component in an encapsulant, and precutting the interconnect component using a blade to form a trench. The trench penetrates through the interconnect component, and partially extends into the encapsulant. The method further includes performing a singulation process to separate the first package component and the second package component into a first package and a second package, respectively.

A method includes forming an interconnect component including a plurality of dielectric layers that include an organic dielectric material, and a plurality of redistribution lines extending into the plurality of dielectric layers. The method further includes bonding a first package component and a second package component to the interconnect component, encapsulating the first package component and the second package component in an encapsulant, and precutting the interconnect component using a blade to form a trench. The trench penetrates through the interconnect component, and partially extends into the encapsulant. The method further includes performing a singulation process to separate the first package component and the second package component into a first package and a second package, respectively.

A semiconductor package including a first substrate including a first bump pad and a filling compensation film (FCF) around the first bump pad; a second substrate facing the first substrate and including a second bump pad; a bump structure (BS) in contact with the first bump pad and the second bump pad; and a non-conductive film (NCF) surrounding the BS and between the first substrate and the second substrate, wherein the NCF covers an upper surface and an edge of the FCF.

A semiconductor package including a first substrate including a first bump pad and a filling compensation film (FCF) around the first bump pad; a second substrate facing the first substrate and including a second bump pad; a bump structure (BS) in contact with the first bump pad and the second bump pad; and a non-conductive film (NCF) surrounding the BS and between the first substrate and the second substrate, wherein the NCF covers an upper surface and an edge of the FCF.

A package comprising a first substrate, a first integrated device coupled to the first substrate, and a second substrate, and a plurality of solder interconnects coupled to the first substrate and the second substrate. The first substrate comprises at least one first dielectric layer; a first plurality of interconnects, wherein the first plurality of interconnects include a first plurality of post interconnects; and a first solder resist layer coupled to a first surface of the first substrate. The second substrate comprises a first surface and a second surface; at least one second dielectric layer; a second plurality of interconnects, wherein the second plurality of interconnects comprises a second plurality of post interconnects; and a second solder resist layer coupled to the second surface of the second substrate. The second surface of the second substrate faces the first substrate. The second solder resist layer includes a cavity.

A package comprising a first substrate, a first integrated device coupled to the first substrate, and a second substrate, and a plurality of solder interconnects coupled to the first substrate and the second substrate. The first substrate comprises at least one first dielectric layer; a first plurality of interconnects, wherein the first plurality of interconnects include a first plurality of post interconnects; and a first solder resist layer coupled to a first surface of the first substrate. The second substrate comprises a first surface and a second surface; at least one second dielectric layer; a second plurality of interconnects, wherein the second plurality of interconnects comprises a second plurality of post interconnects; and a second solder resist layer coupled to the second surface of the second substrate. The second surface of the second substrate faces the first substrate. The second solder resist layer includes a cavity.