A semiconductor device has an electronic component assembly with a substrate and a plurality of electrical components disposed over the substrate. A conductive post is formed over the substrate. A molding compound sheet is disposed over the electrical component assembly. A carrier including a first electrical circuit pattern is disposed over the molding compound sheet. The carrier is pressed against the molding compound sheet to dispose a first encapsulant over and around the electrical component assembly and embed the first electrical circuit pattern in the first encapsulant. A shielding layer can be formed over the electrical components assembly. The carrier is removed to expose the first electrical circuit pattern. A second encapsulant is deposited over the first encapsulant and the first electrical circuit pattern. A second electrical circuit pattern is formed over the second encapsulant. A semiconductor package is disposed over the first electrical circuit pattern.

A multi-chip package including a first integrated circuit and a second integrated circuit. The first integrated circuit includes a first side having a first conductive layer, a second side having a second conductive layer, and an edge, the first conductive layer coupled to the second conductive layer at a location adjacent to the edge. The second integrated circuit is coupled to the second conductive layer of the first integrated circuit.

An FPA includes a substrate; a plurality of spaced-apart implant regions deposited in the substrate; a plurality of supplemental metal contacts, one supplemental metal contact of the plurality of supplemental metal contacts electrically connected to one implant region of the plurality of implant regions; a plurality of metal conductors electrically connecting the plurality of supplemental metal contacts; and a primary metal contact, electrically connected to the plurality of supplemental metal contacts by at least one of the metal conductors of the plurality of metal conductors. The pixel can include an Indium bump electrically connected to the primary metal contact.

An FPA includes a substrate; a plurality of spaced-apart implant regions deposited in the substrate; a plurality of supplemental metal contacts, one supplemental metal contact of the plurality of supplemental metal contacts electrically connected to one implant region of the plurality of implant regions; a plurality of metal conductors electrically connecting the plurality of supplemental metal contacts; and a primary metal contact, electrically connected to the plurality of supplemental metal contacts by at least one of the metal conductors of the plurality of metal conductors. The pixel can include an Indium bump electrically connected to the primary metal contact.

A method for manufacturing electronic chips includes forming, on the side of a first face of a semiconductor substrate, in and on which a plurality of integrated circuits has been formed beforehand, metallizations coupling contacts of adjacent integrated circuits to one another. The method further includes forming, on the side of the first face of the substrate, first trenches extending through the first face of the substrate and laterally separating the adjacent integrated circuits. The first trenches extend through the metallizations to form at least a portion of metallizations at each of the adjacent circuits.

Disclosed is a semiconductor package comprising a substrate that includes a plurality of substrate pads on a top surface of the substrate, a first semiconductor chip on the substrate, a second semiconductor chip on the first semiconductor chip, and a plurality of first bonding wires on a top surface of the first semiconductor chip and coupled to the substrate pads. The first semiconductor chip includes a first lower signal pad, a second lower signal pad laterally spaced apart from the first lower signal pad, and a lower signal redistribution pattern electrically connected to the first lower signal pad and the second lower signal pad. One of the first bonding wires is coupled to the first lower signal pad. Any of the first bonding wires is not on a top surface of the second lower signal pad.

A chip comprises a semiconductor substrate having a first side and a second side opposite to the first side, a plurality of conductive metal patterns formed on the first side of the semiconductor substrate, a plurality of solder balls formed on the first side of the semiconductor substrate, and at least one code pattern formed using laser marking on the first side of the semiconductor substrate in a space free from the plurality of conductive metal patterns and the plurality of solder balls, wherein the at least one code pattern is visible from a backside of the chip, the at least one code pattern represents a binary number having four bits; and the binary number represents a decimal number to represent a tracing number of the chip.

A semiconductor device includes: a first semiconductor chip; plural redistribution lines provided on a main face of the first semiconductor chip, the plural redistribution lines including a redistribution line that includes a first land and a redistribution line that includes a second land; a first electrode provided within the first land, one end of the first electrode being connected to the first land, and another end of the first electrode being connected to an external connection terminal; and a second electrode provided within the second land, one end of the second electrode being connected to the second land, wherein a shortest distance between an outer edge of the second land and an outer edge of the second electrode, is less than, a shortest distance between an outer edge of the first land and an outer edge of the first electrode.

Systems, apparatuses, and methods using wire bonds and direct chip attachment (DCA) features in stacked die packages are described. A stacked die package includes a substrate and at least a first semiconductor die and a second semiconductor die that are vertically stacked above the substrate. An active surface of the first semiconductor die faces an upper surface of the substrate and the first semiconductor die is operably coupled to the substrate by direct chip attachment DCA features. A back side surface of the second semiconductor die faces a back side surface of the first semiconductor die. The second semiconductor die is operably coupled to the substrate by wire bonds extending between an active surface thereof and the upper surface of the substrate.

A display device includes a display area comprising pixels, a fan-out area, a pad area, a display driver, a metal layer disposed on a substrate, a data line, a first voltage line, and a second voltage line extending in a first direction on the metal layer in the display area, a fan-out line electrically connecting the data line to the display driver on the metal layer in the fan-out area, a gate line disposed on the metal layer in the display area and extending in a second direction intersecting the first direction, a source-drain layer disposed on the gate line, and an electrode layer disposed on the source-drain layer. The first voltage line includes a first plate portion disposed on the source-drain layer in the fan-out area, and the second voltage line comprises a second plate portion disposed on the electrode layer in the fan-out area.