A semiconductor package may include a first semiconductor chip having first bonding pads on a first active surface. The semiconductor package may include a second semiconductor chip having second bonding pads which are arranged on a second active surface. The first and second semiconductor chips are stacked such that the first and second active surfaces face each other.

Packaging devices and methods of manufacture thereof for semiconductor devices are disclosed. In some embodiments, a packaging device includes a contact pad disposed over a substrate, and a passivation layer disposed over the substrate and a first portion of the contact pad. A post passivation interconnect (PPI) line is disposed over the passivation layer and is coupled to a second portion of the contact pad. A PPI pad is disposed over the passivation layer. A transition element is disposed over the passivation layer and is coupled between the PPI line and the PPI pad. The transition element comprises a first side and a second side coupled to the first side. The first side and the second side of the transition element are non-tangential to the PPI pad.

A chip with I/O pads on the peripheries and a method making the chip is disclosed. The chip includes: a substrate; a first metal layer, formed above the substrate; an inter-metal dielectric layer, formed above the first metal layer, having concave portions formed along the peripheries of the chip so that a portion of the first metal layer is exposed to form an input-output (I/O) pad in each of the concave portions which are spaced apart from each other; and a passivation layer, formed above the second metal layer without covering the concave portions so that specific circuits are formed by the first metal layer and the second metal layer, respectively. By changing the I/O pad from the top of the chip to the peripheries, the extra thickness of the packaged chip caused by wire bonding in the prior arts can be reduced.

A package includes a corner, a device die, a plurality of redistribution lines underlying the device die, and a plurality of metal pads electrically coupled to the plurality of redistribution lines. The plurality of metal pads includes a corner metal pad closest to the corner, wherein the corner metal pad is a center-facing pad having a bird-beak direction substantially pointing to a center of the package. The plurality of metal pads further includes a metal pad farther away from the corner than the corner metal pad, wherein the metal pad is a non-center-facing pad having a bird-beak direction pointing away from the center of the package.

Electrode pads disposed on a first surface of a semiconductor element include a first pad located close to a corner and a second pad located apart from the corner compared with the first pad. A first wire connected to the first pad has a smaller Young's modulus than a second wire connected to the second pad. A thickness of an intermetallic compound layer formed by the first wire and the first pad is larger than a thickness of an intermetallic compound layer formed by the second wire and the second pad.

A semiconductor package may include a first semiconductor chip having first bonding pads on a first active surface. The semiconductor package may include a second semiconductor chip having second bonding pads which are arranged on a second active surface. The first and second semiconductor chips are stacked such that the first and second active surfaces face each other.

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 semiconductor package comprising: a substrate including an external connection terminal and a cavity; a first semiconductor chip disposed in the cavity, the first semiconductor chip including a first pad and a second pad different from the first pad, the first pad and the second pad being disposed on a first surface of the first semiconductor chip; a metal line disposed on the substrate and the first semiconductor chip and electrically connecting the first pad of the first semiconductor chip with the external connection terminal of the substrate; a second semiconductor chip disposed on the first semiconductor chip, the second semiconductor chip including a third pad disposed on a second surface of the second semiconductor chip facing the first semiconductor chip; and a connection terminal electrically connecting the second pad of the first semiconductor chip with the third pad of the second semiconductor chip, the connection terminal being not electrically connected to the metal line.

A semiconductor device includes a semiconductor die having a top surface with bond pads formed thereon, electrical connection elements each having a first end located at a first plane and electrically connected to one of the bond pads, and an opposite second end located at a second plane that is different from the first plane, and a molding material encapsulating the semiconductor die and the electrical connection elements, wherein the molding material defines a package body that has a top surface and one or more side surfaces, wherein the second end of each electrical connection element is exposed at the top surface and at least one of the one or more side surfaces of the package body.

A package includes a corner, a device die, a plurality of redistribution lines underlying the device die, and a plurality of metal pads electrically coupled to the plurality of redistribution lines. The plurality of metal pads includes a corner metal pad closest to the corner, wherein the corner metal pad is a center-facing pad having a bird-beak direction substantially pointing to a center of the package. The plurality of metal pads further includes a metal pad farther away from the corner than the corner metal pad, wherein the metal pad is a non-center-facing pad having a bird-beak direction pointing away from the center of the package.