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.

Some embodiments include a method in which a first semiconductor wafer and a second semiconductor wafer are bonded with each other. The first semiconductor wafer includes a memory cell array, and the second semiconductor wafer includes a circuit to access the memory cell array. After the bonding, contacts are formed to be associated with the first semiconductor wafer. The contacts are for electrical connections between the first and second semiconductor wafers. The contacts are linked with reference positions, with each of the contacts being linked with an associated one of the reference positions. Each of the contacts is shifted from its associated one of the reference positions to absorb a bonding alignment error between the first and second semiconductor wafers.

Some embodiments include a method in which a first semiconductor wafer and a second semiconductor wafer are bonded with each other. The first semiconductor wafer includes a memory cell array, and the second semiconductor wafer includes a circuit to access the memory cell array. After the bonding, contacts are formed to be associated with the first semiconductor wafer. The contacts are for electrical connections between the first and second semiconductor wafers. The contacts are linked with reference positions, with each of the contacts being linked with an associated one of the reference positions. Each of the contacts is shifted from its associated one of the reference positions to absorb a bonding alignment error between the first and second semiconductor wafers.

A package includes first package component and a second package component. The first package component includes a first electrical connector at a surface of the first package component, and a first solder region on a surface of the first electrical connector. The second package component includes a second electrical connector at a surface of the second package component, and a second solder region on a surface of the second electrical connector. A metal pin has a first end bonded to the first solder region, and a second end bonded to the second solder region.

A package includes first package component and a second package component. The first package component includes a first electrical connector at a surface of the first package component, and a first solder region on a surface of the first electrical connector. The second package component includes a second electrical connector at a surface of the second package component, and a second solder region on a surface of the second electrical connector. A metal pin has a first end bonded to the first solder region, and a second end bonded to the second solder region.

An electronic package and a manufacturing method thereof are provided, in which a full-panel wafer is provided and includes a plurality of electronic bodies arranged in an array at intervals, a plurality of trenches are formed across the electronic bodies along a first direction on the full-panel wafer, so that the trenches on a single electronic body are arranged parallel to each other at interval and along a second direction perpendicular to the first direction. Then, in a singulation process, any trench can be selected for cutting to obtain a plurality of electronic elements of a required size. Finally, each of the electronic elements is disposed on a packaging region of a carrier structure, so that each of the electronic elements is electrically connected to at least a portion of electrical contact pads in the packaging region.

A semiconductor package and methods for producing the same are described. One example of the semiconductor package is described to include a substrate having a first face and an opposing second face. The package is further described to include a plurality of pads disposed on the first face of the substrate, each of the plurality of pads including a first face and an opposing second face that is in contact with the first face of the substrate. The semiconductor package is further described to include a plurality of solder-on-pad structures provided on a first of the plurality of pads.

A package includes first package component and a second package component. The first package component includes a first electrical connector at a surface of the first package component, and a first solder region on a surface of the first electrical connector. The second package component includes a second electrical connector at a surface of the second package component, and a second solder region on a surface of the second electrical connector. A metal pin has a first end bonded to the first solder region, and a second end bonded to the second solder region.

A semiconductor package and methods for producing the same are described. One example of the semiconductor package is described to include a substrate having a first face and an opposing second face. The package is further described to include a plurality of pads disposed on the first face of the substrate, each of the plurality of pads including a first face and an opposing second face that is in contact with the first face of the substrate. The semiconductor package is further described to include a plurality of solder-on-pad structures provided on a first of the plurality of pads.

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.