A microelectronic assembly including an insulating layer having a plurality of nanoscale conductors disposed in a nanoscale pitch array therein and a pair of microelectronic elements is provided. The nanoscale conductors can form electrical interconnections between contacts of the microelectronic elements while the insulating layer can mechanically couple the microelectronic elements together.

Micro LED and microdriver chip integration schemes are described. In an embodiment a microdriver chip includes a plurality of trenches formed in a bottom surface of the microdriver chip, with each trench surrounding a conductive stud extending below a bottom surface of the microdriver chip body. Integration schemes are additionally described for providing electrical connection to conductive terminal contacts and micro LEDs bonded to a display substrate and adjacent to a microdriver chip.

The semiconductor device includes: a semiconductor substrate; a conductor layer formed over the semiconductor substrate and having an upper surface and a lower surface; a conductive pillar formed on the upper surface of the conductor layer and having an upper surface, a lower surface, and a sidewall; a protection film covering the upper surface of the conductor layer and having an opening which exposes the upper surface and the sidewall of the conductive pillar; and a protection film covering the sidewall of the conductive pillar. Then, in plan view, the opening of the protection film is wider than the upper surface of the conductive pillar and exposes an entire region of an upper surface of the conductive pillar.

In one example, an electronic device includes a lower substrate comprising a lower substrate upper side and a lower substrate lower side, and an upper substrate comprising an upper substrate upper side and an upper substrate lower side. The electronic device also includes a first electronic component and a second electronic component coupled to the upper substrate upper side. A first device interconnect and a second device interconnect couple the lower substrate upper side to the upper substrate lower side. The electronic device also includes a connect die coupled to the lower substrate upper side that electrically couples the first electronic component to the second electronic component. Other examples and related methods are also disclosed herein.

A semiconductor device includes a substrate, a package, first conductors and second conductors. The substrate includes a first surface and a second surface opposite to the first surface. The package is disposed over the substrate. The first conductors are disposed over the substrate. The second conductors are disposed over the substrate, wherein the first conductors and the second conductors are substantially at a same tier, and a width of the second conductor is larger than a width of the first conductor.

A semiconductor package may include a semiconductor chip; a molding portion configured to surround at least a side surface of the semiconductor chip; a passivation layer including a contact plug connected to the semiconductor chip and having a narrowing width further away from the semiconductor chip in a vertical direction, below the semiconductor chip; and a redistribution layer portion electrically connecting the semiconductor chip with an external connection terminal, below the passivation layer. The redistribution layer portion may include: an upper pad connected to the contact plug and a fine pattern positioned at a same level as the upper pad in an upper part of the redistribution layer portion; a redistribution layer and a via plug, which has a widening width further away from the semiconductor chip in the vertical direction, in a body part of the redistribution layer portion; and a lower pad connected to the external connection terminal and exposed to an outside of the semiconductor package in a lower part of the redistribution layer portion.

The method of bonding an interposer and an integrated circuit chip includes preparing an interposer including an insulator and conductive lines each having one end exposed to a first surface of the insulator and another end exposed to a second surface opposite to the first surface; placing a bonding mask on the interposer; forming through-holes on the bonding mask before or after the placing of the bonding mask on the interposer; filling the plurality with a conductive material; and bonding an integrated circuit chip to the bonding mask.

A process for manufacturing a semiconductor flip chip package and a corresponding flip chip package. The process comprises associating conducting bump pads to a face corresponding to an active side of one or more electronic dice, flipping the one or more electronic dice so that said face corresponding to an active side of one or more electronic dies is facing a leadframe carrying contacting pads in correspondence of said conducting bump pads, bonding said contacting pads to said conducting bump pads and encasing said one or more electronic dice in a casing by a molding operation. The process includes providing a leadframe having contacting pads presenting a recessed surface in correspondence of the position of said conducting bump pads.

A display device includes a display substrate, a signal pad part, an insulating layer, a connection pad part, and an electronic component. The signal pad part includes first and second signal pad parts, which face each other in one direction. The insulating layer covers the signal pad part. The connection pad part is disposed on the insulating layer and includes a first connection pad part overlapping the first signal pad part and a second connection pad part. The second connection pad part is electrically connected to the first connection pad part and is in electrical contact with the second signal pad part through a contact hole defined in the insulating layer. The electronic component includes a bump that is in electrical contact with the first connection pad part. The first signal pad part includes a plurality of signal pad portions spaced apart from each other.

An apparatus includes a first substrate having a first land and a second substrate having a second land. A first molding compound is disposed between the first substrate and the second substrate. A first semiconductor chip is disposed on the first substrate and in contact with the first molding portion. A first connector contacts the first land and a second connector contacts the second land. The second connector is disposed on the first connector. A volume of the second connector is greater than a volume of the first connector. A surface of the first semiconductor chip is exposed. The first molding compound is in contact with the second connector, and at least a portion of the second connector is surrounded by the first molding compound.