A semiconductor device includes a semiconductor element, a mount portion, and a sintered metal bond. The semiconductor element includes a body and an electrode pad. The body has an obverse surface facing forward in a first direction and a reverse surface facing rearward in the first direction. The electrode pad covers the element reverse surface. The mount portion supports the semiconductor element. The sintered metal bond electrically bonds the electrode pad and the mount portion. The sintered metal bond includes a first rear edge and a first front edge spaced forward in the first direction from the first rear edge. The electrode pad includes a second rear edge and a second front edge spaced forward in the first direction from the second rear edge. The first front edge of the metal bond is spaced rearward in the first direction from the second front edge of the pad.

Discussed generally herein are methods and devices including or providing a redistribution layer device without under ball metallization. A device can include a substrate, electrical interconnect circuitry in the substrate, redistribution layer (RDL) circuitry electrically connected to the electrical interconnect circuitry, a conductive bump electrically connected to the RDL circuitry, the conductive bump interfacing directly with the RDL circuitry, and a sheet molding material over the substrate.

Discussed generally herein are methods and devices including or providing a redistribution layer device without under ball metallization. A device can include a substrate, electrical interconnect circuitry in the substrate, redistribution layer (RDL) circuitry electrically connected to the electrical interconnect circuitry, a conductive bump electrically connected to the RDL circuitry, the conductive bump interfacing directly with the RDL circuitry, and a sheet molding material over the substrate.

A three dimensional multi-die package includes a first die and second die. The first die includes a contact attached to solder. The second die is thinned by adhesively attaching a handler to a top side of the second die and thinning a bottom side of the second die. The second die includes a multilayer contact of layered metallurgy that inhibits transfer of adhesive thereto. The layered metallurgy includes at least one layer that is wettable to the solder. The multilayer contact may include a Nickel layer, a Copper layer upon the Nickel layer, and a Nickel-Iron layer upon the Copper layer. The multilayer contact may also include a Nickel layer, a Copper-Tin layer upon the Nickel layer, and a Tin layer upon the Copper-Tin layer.

A carrier substrate having a plurality of receptacles each for receiving and carrying a semiconductor chip is provided. Semiconductor chips are arranged in the receptacles, and metal is plated in the receptacles to form a metal structure on and in contact with the semiconductor chips. The carrier substrate is cut to form separate semiconductor devices.

A carrier substrate having a plurality of receptacles each for receiving and carrying a semiconductor chip is provided. Semiconductor chips are arranged in the receptacles, and metal is plated in the receptacles to form a metal structure on and in contact with the semiconductor chips. The carrier substrate is cut to form separate semiconductor devices.

Disclosed is a semiconductor package comprising a semiconductor chip, an external connection member on the semiconductor chip, and a dielectric film between the semiconductor chip and the external connection member. The semiconductor chip includes a substrate, a front-end-of-line structure on the substrate, and a back-end-of-line structure on the front-end-of-line structure. The back-end-of-line structure includes metal layers stacked on the front-end-of-line structure, a first dielectric layer on the uppermost metal layer and including a contact hole that vertically overlaps a pad of an uppermost metal layer, a redistribution line on the first dielectric layer and including a contact part in the contact hole and electrically connected to the pad, a pad part, and a line part that electrically connects the contact part to the pad part, and an upper dielectric layer on the redistribution line.

Disclosed is a semiconductor package comprising a semiconductor chip, an external connection member on the semiconductor chip, and a dielectric film between the semiconductor chip and the external connection member. The semiconductor chip includes a substrate, a front-end-of-line structure on the substrate, and a back-end-of-line structure on the front-end-of-line structure. The back-end-of-line structure includes metal layers stacked on the front-end-of-line structure, a first dielectric layer on the uppermost metal layer and including a contact hole that vertically overlaps a pad of an uppermost metal layer, a redistribution line on the first dielectric layer and including a contact part in the contact hole and electrically connected to the pad, a pad part, and a line part that electrically connects the contact part to the pad part, and an upper dielectric layer on the redistribution line.

A semiconductor die includes a semiconductor substrate, a dielectric layer over the semiconductor substrate, a metal structure in the dielectric layer, a first metal pad over the metal structure, a first oxide-based passivation layer over the first metal pad, a second oxide-based passivation layer over the first oxide-based passivation layer, and a bump electrically connected to the first metal pad. The second oxide-based passivation layer has a hardness less than a hardness of the first oxide-based passivation layer.

A semiconductor die includes a semiconductor substrate, a dielectric layer over the semiconductor substrate, a metal structure in the dielectric layer, a first metal pad over the metal structure, a first oxide-based passivation layer over the first metal pad, a second oxide-based passivation layer over the first oxide-based passivation layer, and a bump electrically connected to the first metal pad. The second oxide-based passivation layer has a hardness less than a hardness of the first oxide-based passivation layer.