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 chip bonding method includes the following operations. A first chip is provided, which includes a first contact pad including a first portion lower than a first surface of a first substrate and a second portion higher than the first surface of the first substrate to form the stepped first contact pad. A second chip is provided, which includes a second contact pad including a third portion lower than a third surface of a second substrate and a fourth portion higher than the third surface of the second substrate to form the stepped second contact pad. The first chip and the second chip are bonded. The first portion of the first chip contacts with the fourth portion of the second chip, and the second portion of the first chip contacts with the third portion of the second chip.

Provided is an electronic component capable of reducing a possibility that insulating layers covering from outer edge portions of electrodes to surrounding portions, around the electrodes, of a substrate are separated from the electrodes and the substrate. An electronic component includes: a substrate; an electrode formed on a surface of the substrate; a protective portion covering at least a part of a peripheral portion of the electrode and a surrounding portion, around the electrode, of the surface of the substrate, across outer edge portions of the electrode, and extending in a circumferential direction along the outer edge portions of the electrode; and an extending portion extending, on the surface of the substrate, from the protective portion in an extending direction away from the electrode. A width of the extending portion perpendicular to the extending direction is longer than a width of the protective portion perpendicular to the circumferential direction.

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 device includes a semiconductor substrate having a first major surface and a second major surface opposite the first major surface, a first layer of dielectric material over the first major surface, and a second layer of dielectric material over the second major surface. The first layer includes a plurality of recesses, and the second layer includes a plurality of protrusions. Each of the plurality of recesses are defined by a shape, and each of the plurality of protrusions are vertically aligned with a corresponding one of the plurality of recesses and are defined by the shape of the corresponding one of the plurality of recesses.

A bonded assembly includes a first semiconductor die that includes first metallic bonding structures embedded within a first bonding-level dielectric layer, and a second semiconductor die that includes second metallic bonding structures embedded within a second bonding-level dielectric layer and bonded to the first metallic bonding structures by metal-to-metal bonding. One of the first metallic bonding structures a pad portion, and a via portion located between the pad portion and the first semiconductor device, the via portion having second tapered sidewalls.

A semiconductor chip includes a chip body including a signal input/output circuit unit, a chip pad unit disposed on one surface of the chip body and including first and second chip pads having different surface areas from each other, and a chip pad selection circuit unit disposed in the chip body and electrically connected to the signal input/output circuit unit and the chip pad unit. The chip pad selection circuit unit is configured to select one chip pad of the first and second chip pads and electrically connect the selected one chip pad to the signal input/output circuit unit.

A semiconductor chip includes a chip body including a signal input/output circuit unit, a chip pad unit disposed on one surface of the chip body and including first and second chip pads having different surface areas from each other, and a chip pad selection circuit unit disposed in the chip body and electrically connected to the signal input/output circuit unit and the chip pad unit. The chip pad selection circuit unit is configured to select one chip pad of the first and second chip pads and electrically connect the selected one chip pad to the signal input/output circuit unit.

Disclosed are semiconductor packages and their fabrication methods. The semiconductor package comprises semiconductor chips stacked on a substrate and including first and second pads on top surfaces thereof, and bonding wires connecting the first and second pads to the substrate. The semiconductor chips alternately protrude in a first direction and its opposite direction. The semiconductor chip has a first lateral surface spaced apart from another semiconductor chip. The top surface of the semiconductor chip is provided thereon with a first arrangement line extending along the first lateral surface and with second arrangement lines extending from opposite ends of the first arrangement line. Wherein as a distance between the first and second arrangement lines increases, a distance between the second arrangement lines and the first lateral surface increases. The first pads are arranged along the first arrangement line. The second pads are arranged along the second arrangement lines.

A package construction includes: a die pad, and a suspension lead remaining portion connected to the die pad. Here, an offset portion is provided from a peripheral edge portion of the die pad to the suspension lead remaining portion. Also, the suspension lead remaining portion has: a first end portion connected to the die pad, and a second end portion opposite the first end portion. Further, the second end portion of the suspension lead remaining portion is exposed from the side surface of the sealing body at a position spaced apart from each of the upper surface and the lower surface.