A semiconductor memory device includes first and second memory chips, each including a region of a core circuit, a first area adjacent to a first side of the region in a first direction, a second area adjacent to a second side of the region in a second direction, a third area adjacent to the first area in the first direction and to the second area in the second direction, a first pad in the first area, a second pad in the second area, and third pad in the third area. In each memory chip, a first bonding wire connects the first and third pads. In addition, a second bonding wire connects the second pads of the first and second memory chips. The second memory chip is stacked on the first memory chip to expose the first, second, and third areas of the first memory chip in a third direction.

An array substrate (100, 200, 300) comprises a display region (110) and a bonding region (130, 230, 330). The bonding region (130, 230, 330) is disposed around the display region (110). The bonding region (130, 230, 330) of the array substrate (100, 200, 300) is provided with at least one pad (150, 250). The at least one pad (150, 250) comprises a plurality of first gold fingers (151, 251, 351) spaced apart and arranged in parallel. Intervals between adjacent first golden fingers (151, 251, 351) in the same pad (150, 250) are not entirely the same.

Semiconductor packages including active die stacks, and methods of fabricating such semiconductor packages, are described. In an example, a semiconductor package includes an active die having a top surface covered by a molding compound, and a bonding pad attached to only one interconnect wire. A method of fabricating the semiconductor package includes bridging a pair of dies stacks by the interconnect wire, and dividing the interconnect wire to form separate wire segments attached to respective die stacks.

A bonded structure can include a first element having a first conductive interface feature and a second element having a second conductive interface feature. An integrated device can be coupled to or formed with the first element or the second element. The first conductive interface feature can be directly bonded to the second conductive interface feature to define an interface structure. The interface structure can be disposed about the integrated device in an at least partially annular profile to connect the first and second elements.

An image sensor package including an image sensor chip including an active pixel sensor region and a non-sensing region, a plurality of chip pads being in the non-sensing region; a printed circuit board on one side of the image sensor chip, the printed circuit board including a plurality of bonding pads; conductive wires respectively connecting the plurality of chip pads to the plurality of bonding pads; a bonding dam at a periphery of the active pixel sensor region; a cover glass on the bonding dam and facing another side of the image sensor chip; and an encapsulation layer covering a side surface of the bonding dam, a side surface of the cover glass, an edge of a lower surface of the cover glass, the non-sensing region, and an edge of an upper surface of the printed circuit board, wherein the bonding dam is spaced apart from an end of a side surface of the image sensor chip by a distance of 80 m to 150 m has a height of 50 m to 150 m from the image sensor chip, and has a width of 160 m to 240 m.

Semiconductor devices including stacked semiconductor dies and associated systems and methods are disclosed herein. In one embodiment, a semiconductor device includes a first semiconductor die coupled to a package substrate and a second semiconductor die stacked over the first semiconductor die and laterally offset from the first semiconductor die. The second semiconductor die can accordingly include an overhang portion that extends beyond a side of the first semiconductor die and faces the package substrate. In some embodiments, the second semiconductor die includes bond pads at the overhang portion that are electrically coupled to the package substrate via conductive features disposed therebetween. In certain embodiments, the first semiconductor die can include second bond pads electrically coupled to the package substrate via wire bonds.

The invention concerns a discrete electronic component including: a semiconductor chip including a transistor, the chip including a first metallization of connection to a first conduction region of the transistor; and a printed circuit board including first and second separate connection pads, wherein: the chip is assembled on the printed circuit board so that the first metallization of the chip is in contact with the first and second connection pads of the printed circuit board; and the assembly including the semiconductor chip and the printed circuit board is encapsulated in a package made of an insulating material leaving access to first and second connection terminals of the component connected, inside of the package, respectively to the first and second connection pads of the printed circuit board.

A fan-out semiconductor package includes: a first connection member having a through-hole; a semiconductor chip disposed in the through-hole and having an active surface having connection pads disposed thereon and an inactive surface opposing the active surface; an encapsulant encapsulating at least portions of the first connection member and the inactive surface of the semiconductor chip; a second connection member disposed on the first connection member and the active surface of the semiconductor chip; a resin layer disposed on the encapsulant; and a rear redistribution layer embedded in the encapsulant so that one surface thereof is exposed by the encapsulant, wherein the resin layer covers at least portions of the exposed one surface of the rear redistribution layer, and the rear redistribution layer is electrically connected to the redistribution layer of the first connection member through connection members formed in first openings penetrating through the resin layer and the encapsulant.

A semiconductor memory device includes first and second memory chips, each including a region of a core circuit, a first area adjacent to a first side of the region in a first direction, a second area adjacent to a second side of the region in a second direction, a third area adjacent to the first area in the first direction and to the second area in the second direction, a first pad in the first area, a second pad in the second area, and third pad in the third area. In each memory chip, a first bonding wire connects the first and third pads. In addition, a second bonding wire connects the second pads of the first and second memory chips. The second memory chip is stacked on the first memory chip to expose the first, second, and third areas of the first memory chip in a third direction.

Semiconductor device packages may include a die-attach pad and a semiconductor die supported above the die-attach pad. A spacer comprising an electrically conductive material may be supported above the semiconductor die or between the semiconductor die and the die-attach pad. A wire bond may extend from a bond pad on an active surface of the semiconductor die to the spacer. Another wire bond may extend from the spacer to a lead finger or the die-attach pad. An encapsulant material may encapsulate the semiconductor die, the spacer, the wire bond, the other wire bond, the die-attach pad, and a portion of any lead fingers.