Abstract: A packaging substrate is provided, which includes: a substrate body having a first region with a plurality of conductive pads and a second region adjacent to the first region, and a material layer formed on the second region to prevent the substrate body from warping. An electronic package having the packaging substrate is also provided.

Abstract: A substrate structure is provided, including a substrate body having a conductive pad, an insulation layer formed on the substrate body and exposing the conductive pad, a conductive pillar disposed on the conductive pad, and a metal pad disposed on the insulation layer and electrically connected to the conductive pillar. A conductive component can be coupled to the metal pad. During a high-temperature process, the conductive pillar and the metal pad disperse the remaining stress generated due to heat, thereby preventing the conductive component from being cracked.

Abstract: Provided is a substrate structure, including: a substrate body having a conductive contact; an insulating layer formed on the substrate body with the conductive contact exposed therefrom; and an insulating protection layer formed on a portion of a surface of the insulating layer, and having a plurality of openings corresponding to the conductive contact, wherein at least one of the openings is disposed at an outer periphery of the conductive contact. Accordingly, the insulating protection layer uses the openings to dissipate and disperse residual stresses in a manufacturing process of high operating temperatures.

Abstract: A substrate structure is provided, including a substrate body having a conductive pad, an insulation layer formed on the substrate body and exposing the conductive pad, a conductive pillar disposed on the conductive pad, and a metal pad disposed on the insulation layer and electrically connected to the conductive pillar. A conductive component can be coupled to the metal pad. During a high-temperature process, the conductive pillar and the metal pad disperse the remaining stress generated due to heat, thereby preventing the conductive component from being cracked.

Abstract: A packaging substrate is provided, which includes: a substrate body having a first region with a plurality of conductive pads and a second region adjacent to the first region, and a material layer formed on the second region to prevent the substrate body from warping. An electronic package having the packaging substrate is also provided.

Abstract: A method for fabricating an electronic package is provided, including the steps of: providing an interposer having a plurality of conductive vias and at least an opening formed at a periphery of the conductive vias; disposing at least an electronic element on the interposer; and bonding a cover plate to the electronic element and forming an encapsulant between the cover plate and the interposer so as to encapsulate the electronic element and fill the opening, thus allowing the encapsulant in the opening to come into contact with air. As such, during a subsequent high temperature process, evaporated solvents can flow out of the encapsulant through the opening without forming bubbles in the encapsulant, thereby preventing a bubble explosion from occurring. The invention further provides an electronic package.