A packaged semiconductor device includes a substrate and a contact pad disposed on the semiconductor substrate. The packaged semiconductor device also includes a dielectric layer disposed over the contact pad, the dielectric layer including a first opening over the contact pad, and an insulator layer disposed over the dielectric layer, the insulator layer including a second opening over the contact pad. The packaged semiconductor device also includes a molding material disposed around the substrate, the dielectric layer, and the insulator layer and a wiring over the insulator layer and extending through the second opening, the wiring being electrically coupled to the contact pad.

Method for making one or several connection elements projecting from the back face of a support and each connected to one or several conducting pads located on the front face of the support, the front face being opposite the back face, the method including steps of: forming a conducting layer on the support, the conducting layer being arranged such that it comprises a first conducting portion in contact with at least one conducting pad located on the front face, the first conducting portion extending on the front face and being connected to at least one second conducting portion extending in contact with at least one given wall of the support, the wall being located between the front face and the back face and making a non-zero angle with the front face of the support, thinning the support at its back face so as to release one end of the second conducting portion from the support, this free conducting portion, this free conducting portion projecting beyond the back edge of the support.

An integrated circuit structure includes a substrate, a PPI over the substrate, a solder region over and electrically coupled to a portion of the PPI, and a molding compound molding a lower portion of the solder region therein. A top surface of the molding compound is level with or lower than a maximum-diameter plane, wherein the maximum-diameter plane is parallel to a major surface of the substrate, and the maximum-diameter of the solder region is in the maximum-diameter plane.

A semiconductor device includes a semiconductor chip substrate with a chip region and a scribe lane region, center and boundary pads respectively provided on the chip and scribe lane regions, a lower insulating structure provided on the chip region and the scribe lane region, a first conductive pattern including a contact portion, a conductive line portion, and a bonding pad portion, and an upper insulating structure defining first and second openings formed on the bonding pad portion and the boundary pad. The lower insulating structure includes a plurality of lower insulating layers, which are sequentially stacked on the substrate, and each of which is a silicon-containing inorganic layer.

To provide a semiconductor device having improved reliability. The semiconductor device is equipped with a first polyimide film, rewirings formed over the first polyimide film, first and second dummy patterns formed over the first polyimide film, a second polyimide film that covers the rewirings and the dummy patterns, and an opening portion that exposes a portion of the rewirings in the second polyimide film. The first dummy pattern is, in plan view, comprised of a closed pattern surrounding the rewirings while having a space therebetween.

To improve an integration degree of a semiconductor device. The semiconductor device includes a plurality of wiring layers formed on the semiconductor substrate, a pad electrode formed on an uppermost wiring layer among the plurality of wiring layers, a base insulating film having a pad opening above the pad electrode, and a rewiring electrically connected to the pad electrode and extending over the base insulating film. Further, the semiconductor device includes a protective film covering an upper surface of the rewiring and having an external pad opening exposing part of the upper surface of the rewiring, an external pad electrode electrically connected to the rewiring through the external pad opening and extending over the protective film, and a wire connected to the external pad electrode. Part of the external pad electrode is located in a region outside the rewiring.

Packaged semiconductor devices, methods of packaging semiconductor devices, and package-on-package (PoP) devices are disclosed. In some embodiments, a method of packaging a semiconductor device includes forming through-package vias (TPVs) over a carrier, and coupling a semiconductor device to the carrier. The semiconductor device includes contact pads disposed on a surface thereof and an insulating material disposed over the contact pads. A molding material is formed over the carrier between the TPVs and the semiconductor device. Openings are formed in the insulating material using a laser drilling process over the contact pads, and a redistribution layer (RDL) is formed over the insulating material and the openings in the insulating material. A portion of the RDL is coupled to a top surface of each of the contact pads.

An integrated circuit structure includes a substrate, a PPI over the substrate, a solder region over and electrically coupled to a portion of the PPI, and a molding compound molding a lower portion of the solder region therein. A top surface of the molding compound is level with or lower than a maximum-diameter plane, wherein the maximum-diameter plane is parallel to a major surface of the substrate, and the maximum-diameter of the solder region is in the maximum-diameter plane.

Methods and apparatus are disclosed which reduce the stress concentration at the redistribution layers (RDLs) of a package device. A package device may comprise a seed layer above a passivation layer, covering an opening of the passivation layer, and covering and in contact with a contact pad. A RDL is formed above the passivation layer, above and in contact with the seed layer, covering the opening of the passivation layer, and electrically connected to the contact pad through the seed layer. The RDL has an end portion with a surface that is smooth without a right angle. The surface of the end portion of the RDL may have an obtuse angle, or a curved surface.

A semiconductor device includes an opening and a redistribution layer gutter which are formed integrally in a polyimide resin film of a single layer. A redistribution layer is formed in the polyimide resin film of a single layer. A wiring material (silver) including the redistribution layer can be inhibited from migrating.