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 packaging structure, a method for manufacturing the same and a semiconductor device are provided. The packaging structure includes a redistribution layer electrically connected with an interconnection layer of a semiconductor functional structure, and an insulating layer covering and exposing part of the redistribution layer. The exposed part of the redistribution layer includes at least one first pad. The first pad includes a first area and a second area arranged continuously. The first area is configured for testing. The second area is configured for performing functional interaction corresponding to content of the test.

A capacitor bank structure includes a plurality of capacitors, a protection material, a first dielectric layer and a plurality of first pillars. The capacitors are disposed side by side. Each of the capacitors has a first surface and a second surface opposite to the first surface, and includes a plurality of first electrodes and a plurality of second electrodes. The first electrodes are disposed adjacent to the first surface for external connection, and the second electrodes are disposed adjacent to the second surface for external connection. The protection material covers the capacitors, sidewalls of the first electrodes and sidewalls of the second electrodes, and has a first surface corresponding to the first surface of the capacitor and a second surface corresponding to the second surface of the capacitor. The first dielectric layer is disposed on the first surface of the protection material, and defines a plurality of openings to expose the first electrodes. The first pillars are disposed in the openings of the first dielectric layer and protrude from the first dielectric layer.

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.

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.

A semiconductor package includes a redistribution substrate having a first redistribution layer, a semiconductor chip on the redistribution substrate and connected to the first redistribution layer, a vertical connection conductor on the redistribution substrate and electrically connected to the semiconductor chip through the first redistribution layer, a core member having a first through-hole accommodating the semiconductor chip and a second through-hole accommodating the vertical connection conductor, and an encapsulant covering at least a portion of each of the semiconductor chip, the vertical connection conductor, and the core member, the encapsulant filling the first and second through-holes, wherein the vertical connection conductor has a cross-sectional shape with a side surface tapered to have a width of a lower surface thereof is narrower than a width of an upper surface thereof, and the first and second through-holes have a cross-sectional shape tapered in a direction opposite to the vertical connection conductor.

A semiconductor device is disclosed. The semiconductor device includes a first die on a first substrate, a second die on a second substrate separate from the first substrate, a transmission line in a redistribution layer on a wafer, and a magnetic structure surrounds the transmission line. The first transmission line electrically connects the first die and the second die. The magnetic structure is configured to increase the characteristic impedance of the transmission line, which can save the current and power consumption of a current mirror and amplifier in a 3D IC chip-on-wafer-on-substrate (CoWoS) semiconductor package.

A method of forming an integrated circuit structure includes forming a first magnetic layer, forming a first conductive line over the first magnetic layer, and coating a photo-sensitive coating on the first magnetic layer. The photo-sensitive coating includes a first portion directly over the first conductive line, and a second portion offset from the first conductive line. The first portion is joined to the second portion. The method further includes performing a first light-exposure on the first portion of the photo-sensitive coating, performing a second light-exposure on both the first portion and the second portion of the photo-sensitive coating, developing the photo-sensitive coating, and forming a second magnetic layer over the photo-sensitive coating.

An IC device includes an interlayer dielectric (ILD), a first tower structure embedded in the ILD, and a first ring region including a portion of the ILD that extends around the first tower structure. The first tower structure includes a plurality of first conductive patterns in a plurality of metal layers, and a plurality of first vias between the plurality of metal layers along a thickness direction of the IC device. The plurality of first conductive patterns and the plurality of first vias are coupled to each other to form the first tower structure. The plurality of first conductive patterns is confined by the first ring region, without extending beyond the first ring region. The first tower structure is a dummy tower structure.

A semiconductor device includes passive electrical components in a substrate; and an interconnect structure over the passive electrical components, conductive features of the interconnect structure being electrically coupled to the passive electrical components. The conductive features of the interconnect structure includes a first conductive line over the substrate; a conductive bump over the first conductive line, where in a plan view, the conductive bumps has a first elongated shape and is entirely disposed within boundaries of the first conductive line; and a first via between the first conductive line and the conductive bump, the first via electrically connected to the first conductive line and the conductive bump, where in the plan view, the first via has a second elongated shape and is entirely disposed within boundaries of the conductive bump.