The disclosure provides a printed circuit board structure. The printed circuit board structure includes a printed circuit board, a semiconductor chip, a first pad, a second pad, a conductive wire, and a third pad. The semiconductor chip is disposed on the printed circuit board. The first pad is disposed on the semiconductor chip. The second pad is disposed on the printed circuit board. The conductive wire electrically connects the first pad and the second pad. The third pad is disposed between the first pad and the second pad. The conductive wire has a portion located on the third pad.

A system includes a substrate; a bond pad; a wire spanning above the substrate, having a first end bonded to the bond pad and a second end extending from the bond pad to terminate in a second end thereof; and a support structure disposed on the substrate, the support structure comprising at least a side wall and extending from the substrate to terminate in an end portion spaced from the substrate to support the wire.

The disclosure provides a printed circuit board structure. The printed circuit board structure includes a printed circuit board, a semiconductor chip, a first pad, a second pad, a conductive wire, and a third pad. The semiconductor chip is disposed on the printed circuit board. The first pad is disposed on the semiconductor chip. The second pad is disposed on the printed circuit board. The conductive wire electrically connects the first pad and the second pad. The third pad is disposed between the first pad and the second pad. The conductive wire has a portion located on the third pad.

A method for producing a semiconductor component is proposed. The method includes providing a housing. At least one semiconductor chip is arranged in a cavity of the housing. Furthermore, an electrical contact of the semiconductor chip is connected to an electrical contact of the housing via a bond wire. The method furthermore includes applying a protective material on the electrical contact of the housing and also on a region of the bond wire which is adjacent to the electrical contact of the housing. Moreover, the method also includes filling at least one partial region of the cavity with a gel.

A method for producing a semiconductor component is proposed. The method includes providing a housing. At least one semiconductor chip is arranged in a cavity of the housing. Furthermore, an electrical contact of the semiconductor chip is connected to an electrical contact of the housing via a bond wire. The method furthermore includes applying a protective material on the electrical contact of the semiconductor chip and also on a region of the bond wire which is adjacent to the electrical contact of the semiconductor chip, and/or on the electrical contact of the housing and also on a region of the bond wire which is adjacent to the electrical contact of the housing. Moreover, the method also includes filling at least one partial region of the cavity with a gel.

A semiconductor package and a fabrication method of the semiconductor package are disclosed. First and second redistribution layer patterns are formed on a semiconductor substrate including a chip region and a scribe lane region to provide a bonding pad portion and an edge pad portion, respectively. A polymer pattern is formed to reveal the bonding pad portion and a portion of the edge pad portion. A dicing line is set on the scribe lane region. A stealth dicing process is performed along the dicing line to separate a semiconductor chip including the bonding pad portion from the semiconductor substrate. The semiconductor chip is disposed on a package substrate. A bonding wire is formed to connect the bonding pad portion to the package substrate. The bonding wire is supported by an edge of the polymer pattern to be spaced apart from the revealed portion of the edge pad portion.

The present disclosure provides a method of manufacturing a semiconductor device. The method includes providing a substrate. The method also includes attaching an electronic component to the substrate. The method further includes attaching a fixing feature to an upper surface of the electronic component. In addition, the method includes forming a bonding wire connecting the substrate and the electronic component. The bonding wire is at least partially disposed on the fixing feature.

A semiconductor device and method for manufacturing the same are provided. The semiconductor device includes a substrate, an electronic component, a bonding wire, and a fixing feature. The electronic component is disposed on the substrate. The bonding wire includes a first terminal connected to the electronic component and a second terminal connected to the substrate. The fixing feature is disposed on the substrate. The bonding wire is at least partially disposed on the fixing feature.

A fingerprint sensor device and a method of making a fingerprint sensor device. As non-limiting examples, various aspects of this disclosure provide various fingerprint sensor devices, and methods of manufacturing thereof, that comprise an interconnection structure, for example a bond wire, at least a portion of which extends into a dielectric layer utilized to mount a plate, and/or that comprise an interconnection structure that extends upward from the semiconductor die at a location that is laterally offset from the plate.

An electrical connection wire connects an electrical connection pad of an electrical chip and an electrical connection pad of a carrier substrate to which the electronic chip is mounted. A dielectric layer surrounds at least the bonding wire. The dielectric layer may be a dielectric sheath or a hardened liquid dielectric material. A dielectric material may also cover at least a portion of the electrical chip and carrier substrate. A liquid electrically conductive material is deposited and hardened to form a local conductive shield surrounding the dielectric layer at the bonding wire.