A semiconductor package comprises a first die having a central region and a peripheral region that surrounds the central region; a plurality of through electrodes that penetrate the first die; a plurality of first pads at a top surface of the first die and coupled to the through electrodes; a second die on the first die; a plurality of second pads at a bottom surface of the second die, the bottom surface of the second die facing the top surface of the first die; a plurality of connection terminals that connect the first pads to the second pads; and a dielectric layer that fills a space between the first die and the second die and surrounds the connection terminals. A first width of each of the first pads in the central region may be greater than a second width of each of the first pads in the peripheral region. Each of the connection terminals may include a convex portion at a lateral surface thereof, which protrudes beyond a lateral surface of a respective first pad and a lateral surface of a respective second pad. The convex portion may protrude in a direction away from a center of the first die. Protruding distances of the convex portions may increase in a direction from the center of the first die toward an outside of the first die.

A semiconductor package includes a package substrate having a first side portion adjacent to a first edge, and a second side portion adjacent to a second edge opposite the first edge; a plurality of first substrate pads on the package substrate at the first side portion of the package substrate; a first chip on the package substrate; a second chip stacked on the first chip in a step-wise manner to result in a first exposure region exposing a portion of a surface of the first chip with respect to the second chip due to the step-wise stacking, the first exposure region being adjacent to a first edge of the first chip; a plurality of first bonding pads on a first portion of the first exposure region, the first portion of the first exposure region being adjacent to the first edge of the first chip; a plurality of second bonding pads on a second portion of the first exposure region, the second portion of the first exposure region further from the first edge of the first chip than the first portion of the first exposure region is to the first edge of the first chip, the plurality of second bonding pads being electrically insulated from any circuit components in the first chip; a plurality of third bonding pads on a surface of the second chip; and a plurality of bonding wires electrically connecting the third bonding pads to the first substrate pads via the second bonding pads.

A semiconductor package may include vertically-stacked semiconductor chips and first, second, and third connection terminals connecting the semiconductor chips to each other. Each of the semiconductor chips may include a semiconductor substrate, an interconnection layer on the semiconductor substrate, penetration electrodes connected to the interconnection layer through the semiconductor substrate, and first, second, and third groups on the interconnection layer. The interconnection layer may include an insulating layer and first and second metal layers in the insulating layer. The first and second groups may be in contact with the second metal layer, and the third group may be spaced apart from the second metal layer. Each of the first and third groups may include pads connected to a corresponding one of the first and third connection terminals in a many-to-one manner. The second group may include pads connected to the second connection terminal in a one-to-one manner.

A semiconductor package is provided. The semiconductor package includes: a first stack including a first semiconductor substrate; a through via that penetrates the first semiconductor substrate in a first direction; a second stack that includes a second face facing a first face of the first stack, on the first stack; a first pad that is in contact with the through via, on the first face of the first stack; a second pad including a concave inner side face that defines an insertion recess, the second pad located on the second face of the second stack; and a bump that connects the first pad and the second pad, wherein the bump includes a first upper bump on the first pad, and a first lower bump between the first upper bump and the first pad.

Components may be placed on an active side of a wafer as part of wafer-level chip scale packaging (WLCSP) for use in electronic devices. Pad layouts for the components on an active side of a wafer may be passivation-defined by forming a conductive terminal over a first dielectric layer and a forming a passivating, second dielectric layer over the conductive terminal. Openings formed in the second dielectric layer define component contacts to the conductive terminal and circuitry on the wafer coupled to the conductive terminal. Trenches may be used between pairs of contact pads to further reduce issues resulting from short circuits and/or underfills. A conductive pad may further be deposited in the opening to form underbump metallization (UBM) for coupling the component to the wafer.

A semiconductor device according to an embodiment comprises a first chip and a second chip. The first chip includes a first wire, a first connection pad electrically connected to the first wire, and a first dummy pad. The second chip includes a second wire, a second connection pad electrically connected to the second wire and joined to the first connection pad, and a second dummy pad joined to the first dummy pad. A thickness of the first dummy pad is smaller than a thickness of the first connection pad and a thickness of the second dummy pad is also smaller than a thickness of the second connection pad, or the thickness of the first dummy pad is smaller than the thickness of the first connection pad or the thickness of the second dummy pad is smaller than the thickness of the second connection pad.

Components may be placed on an active side of a wafer as part of wafer-level chip scale packaging (WLCSP) for use in electronic devices. Pad layouts for the components on an active side of a wafer may be passivation-defined by forming a conductive terminal over a first dielectric layer and a forming a passivating, second dielectric layer over the conductive terminal. Openings formed in the second dielectric layer define component contacts to the conductive terminal and circuitry on the wafer coupled to the conductive terminal. Trenches may be used between pairs of contact pads to further reduce issues resulting from short circuits and/or underfills. A conductive pad may further be deposited in the opening to form underbump metallization (UBM) for coupling the component to the wafer.

A semiconductor device according to an embodiment comprises a first chip and a second chip. The first chip includes a first wire, a first connection pad electrically connected to the first wire, and a first dummy pad. The second chip includes a second wire, a second connection pad electrically connected to the second wire and joined to the first connection pad, and a second dummy pad joined to the first dummy pad. A thickness of the first dummy pad is smaller than a thickness of the first connection pad and a thickness of the second dummy pad is also smaller than a thickness of the second connection pad, or the thickness of the first dummy pad is smaller than the thickness of the first connection pad or the thickness of the second dummy pad is smaller than the thickness of the second connection pad.

According to an embodiment, a semiconductor device includes a first chip including a substrate, and a second chip bonded to the first chip at a first surface. Each of the first chip and the second chip includes an element region, and an end region including a chip end portion. The first chip includes a plurality of first electrodes that are arranged on the first surface in the end region and are in an electrically uncoupled state. The second chip includes a plurality of second electrodes that are arranged on the first surface in the end region, are in an electrically uncoupled state, and are respectively in contact with the first electrodes.

Embodiments of a microelectronic assembly comprise a first integrated circuit (IC) die having first bond-pads on a first surface; an organic dielectric material in contact with the first surface; second bond-pads on a second surface of the organic dielectric material opposite to the first surface; through-dielectric vias (TDVs) in the dielectric material between the first bond-pads and the second bond-pads, wherein the TDVs are in direct contact with the first bond-pads and the second bond-pads; a second IC die embedded in the organic dielectric material and coupled to the first bond-pads by first interconnects; and a package substrate coupled to the second bond-pads by second interconnects.