The disclosure provides a semiconductor package substrate made from non-metallic material having a first top surface, a second bottom surface opposite from the first surface, and at least one side surface, the substrate includes at least two pads positioned on the first surface and suitable for receiving an electronic element, an encapsulant material layer covering the first surface, at least two terminals positioned on the second surface and electrically connected to the pads, and a portion of at least one of the two terminals is exposed at the at least one side surface and structured as a wettable flank.

An organic interposer includes dielectric material layers embedding redistribution interconnect structures, package-side bump structures located on a first side of the dielectric material layers, and die-side bump structures located on a second side of the dielectric material layers. A gap region is present between a first area including first die-side bump structures and a second area including second die-side bump structures. Stress-relief line structures are located on, or within, the dielectric material layers within an area of the gap region in the plan view. Each stress-relief line structures may include straight line segments that laterally extend along a respective horizontal direction and is not electrically connected to the redistribution interconnect structures. The stress-relief line structures may include the same material as, or may include a different material from, a metallic material of the redistribution interconnect structures or bump structures that are located at a same level.

A manufacturing method includes performing imposition on at least two discrete double-side packaged structures such that lateral electrical connection structures located on the same side of each of the at least two discrete double-side packaged structures are coplanar; and electrically mounting a first component onto lateral electrical connection structures on the first side, where a double-side packaged structure includes a substrate, the lateral electrical connection structures are formed on the first face and the second face of the substrate, and the first face is opposite to the second face and is adjacent to the first side.

A package has a package body formed by stacked insulating layers and having a front surface including a mounting area, a back surface and a side surface; a plurality of hollow portions arranged so as to be adjacent to each other on the front surface of the package body; a plurality of electrode pads individually placed on respective bottom surfaces of the hollow portions; and a partition wall formed by at least one insulating layer that forms the package body and having protruding banks at its both edge sides. Surfaces of the electrode pads are located at a lower position with respect to the front surface of the package body. The hollow portions are arranged at opposite sides of the partition wall. The electrode pads are electrically connected to respective conductor layers that are formed on the back surface and/or the side surface of the package body.

Some features pertain to a substrate that includes a first portion of the substrate including a first plurality of metal layers, a second portion of the substrate including a second plurality of metal layers, and a plurality of insulating layers configured to separate the first plurality of metal layers and the second plurality of metal layers. A first plurality of posts and a plurality of interconnects are coupled together such that the first plurality of posts and the plurality of interconnects couple the first portion of the substrate to the second portion of the substrate.

A module includes: a substrate having a first surface; a first component mounted on the first surface; a first sealing resin disposed to cover the first surface and the first component; a shield film covering at least a side surface of the first sealing resin; a first ground terminal mounted on the first surface; and a protruding portion formed to extend laterally at any position of the first ground terminal in a direction perpendicular to the first surface. The protruding portion is electrically connected to a portion of the shield film that covers the side surface of the first sealing resin.

A package structure with a wettable side surface and a manufacturing method thereof, and a vertical package module are disclosed. The package structure includes a first dielectric layer, a chip and a circuit layer. The first dielectric layer is provided with a package cavity, side wall bonding pads are arranged on a side wall of the first dielectric layer and located outside the package cavity. The chip is packaged inside the package cavity, pins of the chip face first surface of the first dielectric layer. The circuit layer is arranged on the first surface of the first dielectric layer, and the circuit layer is directly or indirectly connected to the side wall bonding pads and the pins of the chip.

An electronic component housing package includes: an insulating substrate including a main surface; an external connection conductor including a portion exposed at the main surface; and an inner layer conductor located inside of the external connection conductor in a thickness direction of the insulating substrate, in which the external connection conductor includes a protruding portion extending toward the inner layer conductor, and the protruding portion is in contact with the inner layer conductor.

The electronic component package body includes a substrate, an electronic component, and first pins. The substrate includes a bottom surface, a top surface, and a first side surface. The first side surface is connected between the bottom surface and the top surface. The electronic component is packaged inside the substrate. The first pins are embedded in the substrate, and penetrate from the bottom surface to the top surface. The first pins include a bottom surface and a side surface connected to the bottom surface. The bottom surface is exposed relative to the bottom surface, and at least a partial structure of the side surface is exposed relative to the first side surface. Both the bottom surface and the side surface are used for soldering with solder. Reliability of soldering the electronic component package body and a circuit board is high.

A semiconductor package includes a first layer including a semiconductor die and a shunt embedded within a first dielectric substrate layer, and metal pillars extending therethrough. The semiconductor package further includes a second layer stacked on the first layer, the second layer including a metal trace patterned on the first dielectric substrate layer, and a second dielectric substrate layer over the metal trace. The metal trace electrically connects a first portion of the shunt to a first metal pillar of the metal pillars and electrically connects a second portion of the shunt to a second metal pillar of the metal pillars. The semiconductor package further includes a base layer opposite the second layer relative the first layer, the base layer forming exposed electrical contact pads for the semiconductor package, the electrical contact pads providing electrical connections to the shunt, the metal pillars, and the semiconductor die.