Abstract:
A semiconductor package comprises a substrate, a pad, a first isolation layer, an interconnection layer, and a conductive post. The substrate has a first surface and a second surface opposite the first surface. The pad has a first portion and a second portion on the first surface of the substrate. The first isolation layer is disposed on the first surface and covers the first portion of the pad, and the first isolation layer has a top surface. The interconnection layer is disposed on the second portion of the pad and has a top surface. The conductive post is disposed on the top surface of the first isolation layer and on the top surface of the interconnection layer. The top surface of the first isolation layer and the top surface of the interconnection layer are substantially coplanar.
Abstract:
The present disclosure relates to a semiconductor substrate structure, semiconductor package and method of manufacturing the same. The semiconductor substrate structure includes a conductive structure and a dielectric structure. The conductive structure has a first conductive surface and a second conductive surface opposite to the first conductive surface. The dielectric structure covers at least a portion of the conductive structure, and has a first dielectric surface and a second dielectric surface opposite to the first dielectric surface. The first conductive surface does not protrude from the first dielectric surface, and the second conductive surface is recessed from the second dielectric surface. The dielectric structure includes, or is formed from, a photo-sensitive resin, and the dielectric structure defines a dielectric opening in the second dielectric surface to expose a portion of the second conductive surface.
Abstract:
A semiconductor substrate includes an insulating layer, a first conductive patterned layer disposed adjacent to a first surface of the insulating layer, and conductive bumps disposed on the first conductive patterned layer. Each conductive bump has a first dimension along a first direction and a second dimension along a second direction perpendicular to the first direction, and the first dimension is greater than the second dimension. A semiconductor package structure includes the semiconductor substrate, at least one die electrically connected to the conductive bumps, and a molding compound encapsulating the conductive bumps.
Abstract:
A semiconductor package structure and a fabrication method thereof are provided. The fabrication method comprises: providing a substrate strip, the substrate strip comprising a plurality of substrate units; disposing a plurality of chips on the plurality of substrate units; disposing a packaging encapsulant on the substrate strip to encapsulate the chips; forming a warp-resistant layer on a top surface of the packaging encapsulant; and dividing the substrate strip to separate the plurality of substrate units to further fabricate a plurality of semiconductor package structures, wherein the warp-resistant layer is formed of a selected material with a selected thickness to make a variation of warpage of the semiconductor package structure at a temperature between 25° C. and 260° C. to be smaller than 560 μm.
Abstract:
A semiconductor package substrate includes a core portion, an upper circuit layer and a plurality of pillars. The pillars are disposed on and project upward from the upper circuit layer. Top surfaces of the pillars are substantially coplanar. The pillars provide an electrical interconnect to a semiconductor die. Solder joint reliability as between the substrate and the semiconductor die is improved.