A semiconductor device package includes a redistribution structure and an electrical connection. The redistribution structure has an electrical terminal adjacent to a surface of the redistribution structure and a seed layer covering a side surface of the electrical terminal. The electrical connection is disposed on a first surface of the electrical terminal. The seed layer extends to the first surface of the electrical terminal.

A semiconductor structure includes a first substrate, a first redistribution line (RDL) pad, and a first bond pad. The first substrate has a first conductive pad. The RDL pad is disposed over the first conductive pad and extending to a top surface of the first substrate. The first bond pad is disposed on a first portion of the first RDL pad, in which the first portion of the first RDL pad overlaps with the top surface of the first substrate.

A semiconductor structure includes a first substrate, a first redistribution line (RDL) pad, and a first bond pad. The first substrate has a first conductive pad. The RDL pad is disposed over the first conductive pad and extending to a top surface of the first substrate. The first bond pad is disposed on a first portion of the first RDL pad, in which the first portion of the first RDL pad overlaps with the top surface of the first substrate.

Structures and formation methods of a semiconductor device structure are provided. The method includes forming a seed layer to cover a first passivation layer over a semiconductor substrate. The method also includes forming a metal layer to partially cover the seed layer by using the seed layer as an electrode layer in a first plating process and forming a metal pillar bump over the metal layer by using the seed layer as an electrode layer in a second plating process. In addition, the method includes forming a second passivation layer over the metal layer, wherein the second passivation layer includes a protrusion portion extending from a top surface of the second passivation layer and surrounding the sidewall of the metal pillar bump.

In a method of manufacturing a semiconductor device, an opening is formed in a first dielectric layer so that a part of a lower conductive layer is exposed at a bottom of the opening, one or more liner conductive layers are formed over the part of the lower conductive layer, an inner sidewall of the opening and an upper surface of the first dielectric layer, a main conductive layer is formed over the one or more liner conductive layers, a patterned conductive layer is formed by patterning the main conductive layer and the one or more liner conductive layers, and a cover conductive layer is formed over the patterned conductive layer. The main conductive layer which is patterned is wrapped around by the cover conductive layer and one of the one or more liner conductive layers.

A method includes forming a package component comprising forming a dielectric layer, patterning the dielectric layer to form an opening, and forming a redistribution line including a via in the opening, a conductive pad, and a bent trace. The via is vertically offset from the conductive pad. The conductive pad and the bent trace are over the dielectric layer. The bent trace connects the conductive pad to the via, and the bent trace includes a plurality of sections with lengthwise directions un-parallel to each other. A conductive bump is formed on the conductive pad.

The present disclosure describes a structure with passivation layers with rounded corners and a method for forming such a structure. The method includes forming a first insulating layer on a substrate, where the substrate includes a first conductive structure. The method further includes forming an opening in the first insulating layer to expose the first conductive structure and forming a second conductive structure on the first insulating layer, where the second conductive structure is in contact with the first conductive structure through the opening. The method further includes removing a portion of the second conductive structure with a first etching condition, removing a portion of the first insulating layer with a second etching condition, different from the first etching condition, to form a rounded corner between a sidewall of the second conductive structure and a top surface of the first insulating layer, and depositing a second insulating layer on the first insulating layer and the second conductive structure.

A fan-out wafer level package includes a semiconductor die with a redistribution layer on a sidewall of the semiconductor die. A redistribution layer positioned over the die includes an extended portion that extends along the sidewall. The semiconductor die is encapsulated in a molding compound layer. The molding compound layer is positioned between the extended portion of the redistribution layer and the sidewall of the semiconductor die. Solder contacts, for electrically connecting the semiconductor device to an electronic circuit board, are positioned on the redistribution layer. The solder contacts and the sidewall of the redistribution layer can provide electrical contact on two different locations. Accordingly, the package can be used to improve interconnectivity by providing vertical and horizontal connections.

The present disclosure relates to a solid-state image-capturing device, a semiconductor apparatus, an electronic apparatus, and a manufacturing method that enable improvement in reliability of through electrodes and increase in density of through electrodes. A common opening portion is formed including a through electrode formation region that is a region in which the plurality of through electrodes electrically connected respectively to a plurality of electrode pads provided on a joint surface side from a device formation surface of a semiconductor substrate is formed. Then, a plurality of through portions is formed so as to penetrate to the plurality of respective electrode pads in the common opening portion, and wiring is formed along the common opening portion and the through portions from the electrode pads to the device formation surface corresponding to the respective through electrodes. The present technology can be applied to a layer-type solid-state image-capturing device, for example.

A packaging semiconductor device, such as a fan-out Wafer-Level Packaging (FOWLP) device, is fabricated by providing a semiconductor device (20) having conductive patterns (22) disposed on a first surface and then forming, on the conductive patterns, photoresist islands (24) having a first predetermined shape defined by a first critical width dimension and a minimum height dimension so that a subsequently-formed dielectric polymer layer (26) surrounds but does not cover each photoresist island (24), thereby allowing each photoresist island to be selectively removed from the one or more conductive patterns to form one or more via openings (28) in the dielectric polymer layer such that each via opening has a second predetermined shape which matches at least part of the first predetermined shape of the photoresist islands.