Disclosed are semiconductor devices and their fabrication methods. The semiconductor device comprises lower and upper structures. The lower structure includes a first semiconductor substrate, a first pad, and a first dielectric layer. The upper structure includes a second semiconductor substrate, a second pad, and a second dielectric layer. The upper and lower structures are bonded to each other to allow the first and second pads to come into contact each other and to allow the first and second dielectric layers to come into contact each other. A first interface between the first and second pads is at a level different from that of a second interface between the first and second dielectric layers. A first area of the first pad is greater than a second area of the second pad. A second thickness of the second pad is different from a first thickness of the first pad.

A semiconductor packaging structure includes a die including a bond pad and a first metal layer structure disposed on the die, the first metal layer structure having a first width, the first metal layer structure including a first metal layer, the first metal layer electrically coupled to the bond pad. The semiconductor packaging structure also includes a first photosensitive material around sides of the first metal layer structure and a second metal layer structure disposed over the first metal layer structure and over a portion of the first photosensitive material, the second metal layer structure electrically coupled to the first metal layer structure, the second metal layer structure having a second width, where the second width is greater than the first width. Additionally, the semiconductor packaging structure includes a second photosensitive material around sides of the second metal layer structure.

The present disclosure relates to a redistribution layer (RDL) structure, a manufacturing method thereof, and a semiconductor structure having the same. The RDL structure includes an RDL, disposed on a substrate, and including a bond pad portion and a wire portion connected to the bond pad portion, where a thickness of the bond pad portion is greater than a thickness of the wire portion.

A semiconductor structure includes a semiconductor die containing an array of first bonding structures. Each of the first bonding structures includes a first metal pad located within a dielectric material layer and a basin-shaped underbump metallization (UBM) pad located within a respective opening in a passivation dielectric layer and contacting the first metal pad. An interposer includes an array of second bonding structures, wherein each of the second bonding structures includes an underbump metallization (UBM) pillar having a respective cylindrical shape. The semiconductor die is bonded to the interposer through an array of solder material portions that are bonded to a respective one of the first-type bonding structures and to a respective one of the second-type bonding structures.

A semiconductor structure is provided. The semiconductor structure includes an interconnection structure, a first conductive pad, a second conductive pad, a conductive material and a conductive coil. The first and second conductive pads are disposed over and electrically connected to the interconnection structure individually. The conductive material is electrically isolated from the interconnection structure, wherein bottom surfaces of the conductive material, the first conductive pad and the second conductive pad are substantially aligned. The conductive coil is disposed in the interconnection structure and overlapped by the conductive material. A manufacturing method of a semiconductor structure is also provided.

An electronic substrate and an electronic device are provided. The electronic substrate includes a base, a protruding portion, and a bonding pad. The protruding portion and the bonding pad are disposed on the base. The bonding pad is not overlapped with a boundary of the protruding portion.

A packaged integrated circuit (IC) includes a leadframe including a die pad and leads around the die pad, an analog IC die having first bond pads on its active top side, and a second circuit including second circuit bond pads attached to the analog IC die by an attachment layer configured as a ring with a hollow center that provides an inner gap. A bottom side of the analog IC or the second circuit is attached to the die pad. Bond wires couple at least some of the first bond pads or some of the second circuit bond pads to the leads, and there is a second coupling between others of the second circuit bond pads and others of the first bond pads. A mold compound is for encapsulating the second circuit and the analog IC.

A packaged integrated circuit (IC) includes a leadframe including a die pad and leads around the die pad, an analog IC die having first bond pads on its active top side, and a second circuit including second circuit bond pads attached to the analog IC die by an attachment layer configured as a ring with a hollow center that provides an inner gap. A bottom side of the analog IC or the second circuit is attached to the die pad. Bond wires couple at least some of the first bond pads or some of the second circuit bond pads to the leads, and there is a second coupling between others of the second circuit bond pads and others of the first bond pads. A mold compound is for encapsulating the second circuit and the analog IC.

A packaged semiconductor device includes a wiring substrate with a bonding pad on a first surface, a wiring layer, a first conductive plug extending through the wiring substrate from the wiring layer to the first surface, a second conductive plug extending through the wiring substrate from the wiring layer to a second surface, and a third conductive plug extending through the wiring substrate from the wiring layer to the second surface. A semiconductor chip is mounted on the first surface and has a pad terminal electrically connected to the bonding pad. A first solder ball is on the second surface of the wiring substrate and electrically connected to the second conductive plug. A second solder ball is on the second surface of the wiring substrate and electrically connected to the third conductive plug.

A packaged integrated circuit (IC) includes a leadframe including a die pad and leads around the die pad, an analog IC die having first bond pads on its active top side, and a second circuit including second circuit bond pads attached to the analog IC die by an attachment layer configured as a ring with a hollow center that provides an inner gap. A bottom side of the analog IC or the second circuit is attached to the die pad. Bond wires couple at least some of the first bond pads or some of the second circuit bond pads to the leads, and there is a second coupling between others of the second circuit bond pads and others of the first bond pads. A mold compound is for encapsulating the second circuit and the analog IC.