An electrodeposition composition comprising: (a) a source of copper ions; (b) an acid; (c) a suppressor; and (d) a leveler, wherein the leveler comprises a quaternized dipyridyl compound prepared by reacting a dipyridyl compound with a difunctional alkylating agent or a quaternized poly(epihalohydrin). The electrodeposition composition can be used in a process for forming a copper feature over a semiconductor substrate in wafer level packaging to electrodeposit a copper bump or pillar on an underbump structure of a semiconductor assembly.

A semiconductor package includes a first semiconductor chip comprising a semiconductor substrate and a redistribution pattern on a top surface of the semiconductor substrate, the redistribution pattern having a hole exposing an inner sidewall of the redistribution pattern, a second semiconductor chip on a top surface of the first semiconductor chip, and a bump structure disposed between the first semiconductor chip and the second semiconductor chip. The bump structure is disposed in the hole and is in contact with the inner sidewall of the redistribution pattern.

A package has a package body formed by stacked insulating layers and having a front surface including a mounting area, a back surface and a side surface; a plurality of hollow portions arranged so as to be adjacent to each other on the front surface of the package body; a plurality of electrode pads individually placed on respective bottom surfaces of the hollow portions; and a partition wall formed by at least one insulating layer that forms the package body and having protruding banks at its both edge sides. Surfaces of the electrode pads are located at a lower position with respect to the front surface of the package body. The hollow portions are arranged at opposite sides of the partition wall. The electrode pads are electrically connected to respective conductor layers that are formed on the back surface and/or the side surface of the package body.

A bonding apparatus includes a bond head structure, an optical unit and an actuator unit. The bond head structure includes a bond head collet, a connecting unit to which the bond head collet is attached and a look-through passage extending through the bond head collet and the connecting unit along a central axis of the bond head structure. In use, the bond head collet holds an electrical component to be bonded to a bonding area of a base member and the optical unit is positioned relative to the bond head structure to view and inspect the electrical component through the look-through passage of the bond head structure. The actuator unit moves the connecting unit of the bond head structure based on the inspection of the electrical component by the optical unit, to align the electrical component with the bonding area of the base member.

A bonded structure is disclosed. The bonded structure can include a first element that includes a first bonding layer, the first bonding layer that has a first contact pad and a routing trace. The routing trace is formed at the same level as the first contact pad. The bonded structure can include a second element that includes a second bonding layer that has a second contact pad. The first element and the second element are directly bonded such that the first contact pad and the second contact pad are directly bonded without an intervening adhesive

A semiconductor device according to some example embodiments includes a substrate, an insulating structure covering the substrate, a transistor between the substrate and the insulating structure, a via insulating layer extending through the insulating structure and the substrate, a plurality of via structures extending through the via insulating layer, a plurality of conductive structures respectively connected to the plurality of via structures, and a plurality of bumps respectively connected to the conductive structures.

A semiconductor device including a semiconductor substrate including an electrode; a wire connected to the electrode; a first insulating film including a first opening that partially exposes the wire; a base portion that is connected to a portion of the wire exposed via the first opening, and that includes a conductor including a recess corresponding to the first opening; and a solder film on a surface of the base portion. Solder included in the solder film is fused by a first heat treatment, and the recess is filled with the fused solder.

A semiconductor package includes a semiconductor chip having at least one chip pad disposed on one surface thereof; a wiring pattern disposed on top of the semiconductor chip and having at least a portion thereof in contact with the chip pad to be electrically connected to the chip pad; and a solder bump disposed on outer surface of the wiring pattern to be electrically connected to the chip pad through the wiring pattern.

An integrated electronic device including: a main body delimited by a front surface; a top conductive region extending within the main body, starting from the front surface; a first dielectric region extending on the front surface; and a barrier structure, arranged on the first dielectric region. A first aperture extends through the barrier structure and the first dielectric region; the first aperture is delimited at bottom by the top conductive region. The integrated electronic device further includes a contact structure including at least a first conductive region extending within the first aperture, in direct contact with the top conductive region and the barrier structure.

A semiconductor device includes a first redistribution layer pattern, a second redistribution layer pattern, and a recognition mark. The first redistribution layer pattern is formed on a semiconductor substrate. The second redistribution layer pattern, with a bonding pad portion, is disposed on the first redistribution layer pattern. Furthermore, the recognition mark is formed on the first redistribution layer pattern to indicate a position of the bonding pad portion.