A semiconductor device with redistribution layers on partial encapsulation is disclosed and may include providing a carrier with a non-photosensitive protection layer, forming a pattern in the non-photosensitive protection layer, providing a semiconductor die with a contact pad on a first surface, and bonding the semiconductor die to the non-photosensitive protection layer such that the contact pad aligns with the pattern formed in the non-photosensitive protection layer. A second surface opposite to the first surface of the semiconductor die, side surfaces between the first and second surfaces of the semiconductor die, and a portion of a first surface of the non-photosensitive protection layer may be encapsulated with an encapsulant. The carrier may be removed leaving the non-photosensitive protection layer bonded to the semiconductor die. A redistribution layer may be formed on the contact pad and a second surface of the non-photosensitive protection layer opposite to the first surface.

A semiconductor device includes a first passivation layer over a substrate. The semiconductor device further includes a post passivation interconnect (PPI) line over the first passivation layer, wherein a top-most portion of the PPI line has a first portion having a convex shape and a second portion having a concave shape. The semiconductor device further includes a second passivation layer configured to cause stress to the PPI line. The semiconductor device further includes a polymer material over the second passivation layer.

There is provided a flexible electronic structure for bonding with an external circuit, comprising a flexible substrate, having a first surface, configured for bonding with the external circuit, and an opposing second surface, configured for engagement with a bonding tool, comprising at least one electronic component; at least one contact member, operatively coupled with said at least one electronic component and provided at said first surface of said flexible substrate, and adapted to operably interface with the external circuit after bonding, and at least one shield member, provided at said first surface so as to shieldingly overlap at least a portion of said at least one electronic component, adapted to withstand a predetermined pressure applied to said first surface and/or said opposing second surface during bonding with the external circuit.

There is provided a flexible electronic structure for bonding with an external circuit. The flexible electronic structure comprising: a flexible body having a first surface, the flexible body comprising at least one electronic component; at least one contact element configured to bond with the external circuit, the at least one contact element operatively coupled with the at least one electronic component and provided at the first surface of the flexible body, and arranged to operably interface with the external circuit after bonding, and at least one support element provided at the first surface of the flexible body, each support element arranged to contact a corresponding surface element disposed on a first surface of an external structure comprising the external circuit.

A package comprises a die and a redistribution layer coupled to the die. The redistribution layer comprises a metal layer, a brass layer abutting the metal layer, and a polymer layer abutting the brass layer. The package is a wafer chip scale package (WCSP). The package further includes a solder ball attached to the redistribution layer.

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.

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.

An integrated circuit (IC) device includes a first passivation layer over a substrate. The IC device further includes a redistribution line over the first passivation layer, wherein the redistribution line has a barrel-shaped profile. The IC device further includes a second passivation layer over the redistribution line. The IC device further includes a polymer layer over the second passivation layer.

A first mask and a second mask are sequentially provided to perform a multi-step exposure and development processes. Through proper overlay design of the first mask and the second mask, conductive wirings having acceptable overlay offset are formed.

A gas shower head includes a plate, a plurality of central holes disposed in a central region of the plate, and a plurality of peripheral holes disposed in a peripheral region of the plate. The central holes are configured to form a first portion of a material film, and the peripheral holes are configured to form a second portion of the material film. A hole density in the peripheral region is greater than a hole density in the central region. The first portion of the material film includes a first thickness corresponding to the hole density in central region, and the second portion of the material film includes a second thickness corresponding to the hole density in peripheral region and greater than the first thickness.