A wafer-level chip-size package includes a semiconductor structure. A bonding pad is formed over the semiconductor structure, including a plurality of conductive segments. A conductive component is formed over the semiconductor structure, being adjacent to the bonding pad. A passivation layer is formed, exposing a portions of the conductive segments of the first bonding pad. A conductive redistribution layer is formed over the portions of the conductive segments of the first bonding pad exposed by the passivation layer. A planarization layer is formed over the passivation layer and the conductive redistribution layer, exposing a portion of the conductive redistribution layer. A UBM layer is formed over the planarization layer and the portion of the conductive redistribution layer exposed by the planarization layer. A conductive bump is formed over the UBM layer.

A bond pad with micro-protrusions for direct metallic bonding. In one embodiment, a semiconductor device comprises a semiconductor substrate, a through-silicon via (TSV) extending through the semiconductor substrate, and a copper pad electrically connected to the TSV and having a coupling side. The semiconductor device further includes a copper element that projects away from the coupling side of the copper pad. In another embodiment, a bonded semiconductor assembly comprises a first semiconductor substrate with a first TSV and a first copper pad electrically coupled to the first TSV, wherein the first copper pad has a first coupling side. The bonded semiconductor assembly further comprises a second semiconductor substrate, opposite to the first semiconductor substrate, the second semiconductor substrate comprising a second copper pad having a second coupling side. A plurality of copper connecting elements extend between the first and second coupling sides of the first and second copper pads.

In one embodiment, a semiconductor device includes a substrate, a plurality of transistors provided on the substrate. The device further includes a first interconnect layer provided above the transistors and electrically connected to at least one of the transistors, one or more first plugs provided on the first interconnect layer, and a first pad provided on the first plugs. The device further includes a second pad provided on the first pad, one or more second plugs provided on the second pad, and a second interconnect layer provided on the second plugs. The device further includes a memory cell array provided above the second interconnect layer and electrically connected to the second interconnect layer. A number of the second plugs on the second pad is larger than a number of the first plugs under the first pad.

A semiconductor device assembly includes a substrate and a die coupled to the substrate, the die including a first contact pad electrically coupled to a first circuit on the die including an active circuit element, a first TSV electrically coupling the first contact pad to a first backside contact pad, and a second contact pad electrically coupled to a second circuit including only passive circuit elements. The substrate includes a substrate contact electrically coupled to the first and second contact pads. The assembly can further include a second die including a third contact pad electrically coupled to a third circuit including a second active circuit element, and a fourth contact pad electrically coupled to a fourth circuit on the second die including only passive circuit elements. The substrate contact can be electrically coupled to the third contact pad, but electrically disconnected from the fourth contact pad.

A variety of methods and arrangements to convert a flip chip IC die package into a wirebondable component using an interposer are described. The interposer has an insulating layer and a patterned metal layer attached to one side of the insulating layer. The patterned metal layer is electrically connected to the IC die using solder bumps. The interposer has wirebond pads on a side of the interposer opposed to the side of the interposer having the electrical connection between the IC die and solder bumps. The interposer may be a thin organic laminate or a flexible printed circuit board.

A bond pad structure and method are provided. The structure includes a first conductive layer formed over a substrate. A second conductive layer is formed over a first portion of the first conductive layer, and a first portion of the second conductive layer forms a first capacitor electrode. A third conductive layer is formed over the first conductive layer and second conductive layer, and a first portion of the third conductive layer forms a second capacitor electrode. A second portion of the third conductive layer forms a wire bond region. A dielectric material is disposed between the first capacitor electrode and the second capacitor electrode to form a first capacitor.

A semiconductor device includes: a semiconductor layer of silicon carbide including a plurality of layers disposed on a main surface side; an electrode layer that is one of the plurality of layers, wherein the electrode layer has an electrode connecting surface to which a conductive connecting member is connected, and the electrode layer is composed mainly of silver; and a first metal layer that is a layer, different from the electrode layer, among the plurality of layers, wherein the first metal layer has a first bonding surface bonded onto the electrode layer such that the electrode connecting surface is exposed to an outside, and a second bonding surface electrically connected to the semiconductor layer, and the first metal layer is composed mainly of titanium carbide.

A semiconductor package includes a first semiconductor chip including a first substrate, a plurality of first pads on the first substrate, and a plurality of through-electrodes extending through the first substrate and connected to the plurality of first pads, and a second semiconductor chip on the first semiconductor chip, the second semiconductor chip including a second substrate, and a plurality of second pads below the second substrate and in contact with the plurality of first pads. The plurality of first pads includes a first group of first pads each including a first base layer including a first recess, and a first conductive pattern layer and a first insulating pattern layer alternately disposed in the first recess, and a second group of first pads each including a second base layer including a second recess, and a second conductive pattern layer disposed in the second recess.

A semiconductor device assembly includes a substrate and a die coupled to the substrate, the die including a first contact pad electrically coupled to a first circuit on the die including an active circuit element, a first TSV electrically coupling the first contact pad to a first backside contact pad, and a second contact pad electrically coupled to a second circuit including only passive circuit elements. The substrate includes a substrate contact electrically coupled to the first and second contact pads. The assembly can further include a second die including a third contact pad electrically coupled to a third circuit including a second active circuit element, and a fourth contact pad electrically coupled to a fourth circuit on the second die including only passive circuit elements. The substrate contact can be electrically coupled to the third contact pad, but electrically disconnected from the fourth contact pad.

The present disclosure provides a semiconductor structure including a substrate; a redistribution layer (RDL) disposed over the substrate, and including a dielectric layer over the substrate, a conductive plug extending within the dielectric layer, and a bonding pad adjacent to the conductive plug and surrounded by the dielectric layer; and a conductive bump disposed over the conductive plug, wherein the bonding pad is at least partially in contact with the conductive plug and the conductive bump. Further, a method of manufacturing the semiconductor structure is also provided.