A chip package structure is provided. The chip package structure includes a wiring substrate including a substrate, a first pad, and a second pad. The first pad and the second pad are respectively over a first surface and a second surface of the substrate, and the first pad is narrower than the second pad. The chip package structure includes a conductive adhesive layer over the first pad. The conductive adhesive layer is in direct contact with the first pad. The chip package structure includes a nickel layer over the conductive adhesive layer. The chip package structure includes a chip over the wiring substrate. The chip package structure includes a conductive bump between the nickel layer and the chip. The conductive bump includes gold.

A chip package structure is provided. The chip package structure includes a wiring substrate including a substrate, a first pad, and a second pad. The first pad and the second pad are respectively over a first surface and a second surface of the substrate, and the first pad is narrower than the second pad. The chip package structure includes a nickel layer over the first pad. The nickel layer has a T-shape in a cross-sectional view of the nickel layer. The chip package structure includes a chip over the wiring substrate. The chip package structure includes a conductive bump between the nickel layer and the chip.

A chip package structure is provided. The chip package structure includes a wiring substrate including a substrate, a first pad, and a second pad. The first pad and the second pad are respectively over a first surface and a second surface of the substrate, and the first pad is narrower than the second pad. The chip package structure includes a conductive adhesive layer over the first pad. The conductive adhesive layer is in direct contact with the first pad. The chip package structure includes a nickel layer over the conductive adhesive layer. The chip package structure includes a chip over the wiring substrate. The chip package structure includes a conductive bump between the nickel layer and the chip. The conductive bump includes gold.

A method for forming a chip package structure is provided. The method includes providing a wiring substrate including a substrate, a pad, and a polymer layer. The polymer layer is over the substrate and the pad, and the polymer layer has a first opening exposing the pad. The method includes forming a conductive adhesive layer over the polymer layer and the pad. The conductive adhesive layer is in direct contact with and conformally covers the polymer layer and the pad. The method includes forming a nickel layer over the conductive adhesive layer. The nickel layer is thicker than the conductive adhesive layer, and the nickel layer and the conductive adhesive layer are made of different materials. The method includes bonding a chip to the wiring substrate through a conductive bump. The conductive bump is between the nickel layer and the chip.

A method for forming a chip package structure is provided. The method includes providing a wiring substrate including a substrate, a pad, and a polymer layer. The polymer layer is over the substrate and the pad, and the polymer layer has a first opening exposing the pad. The method includes forming a conductive adhesive layer over the polymer layer and the pad. The conductive adhesive layer is in direct contact with and conformally covers the polymer layer and the pad. The method includes forming a nickel layer over the conductive adhesive layer. The nickel layer is thicker than the conductive adhesive layer, and the nickel layer and the conductive adhesive layer are made of different materials. The method includes bonding a chip to the wiring substrate through a conductive bump. The conductive bump is between the nickel layer and the chip.

A method for producing a semiconductor chip is a method for producing a semiconductor chip that includes a substrate, a conductive portion formed on the substrate, and a microbump formed on the conductive portion, which includes a smooth surface formation process of forming a smooth surface on the microbump, and the smooth surface formation process includes a heating process of causing a reducing gas to flow in an inert atmosphere into a space where the semiconductor chips are arranged and heated at or higher than a temperature of a melting point of the microbump, and in the heating process, a pressure application member is mounted on the microbump and among principal surfaces of the pressure application member, a principal surface that contacts the microbump is a flat surface.

A method for producing a semiconductor chip is a method for producing a semiconductor chip that includes a substrate, a conductive portion formed on the substrate, and a microbump formed on the conductive portion, which includes a smooth surface formation process of forming a smooth surface on the microbump, and the smooth surface formation process includes a heating process of causing a reducing gas to flow in an inert atmosphere into a space where the semiconductor chips are arranged and heated at or higher than a temperature of a melting point of the microbump, and in the heating process, a pressure application member is mounted on the microbump and among principal surfaces of the pressure application member, a principal surface that contacts the microbump is a flat surface.

A method for producing a semiconductor package is a method for producing a semiconductor package in which a plurality of semiconductor chips, each of which includes a substrate, conductive portions formed on the substrate, and microbumps formed on the conductive portions, are laminated, which includes a heating process of causing a reducing gas to flow in an inert atmosphere into a space where the semiconductor chips are arranged and heated at or higher than a temperature of a melting point of the microbump, and in the heating process, a pressure application member is mounted on the microbump.

Reflow Grid Array (RGA) technology may be implemented on an interposer device, where the interposer is placed between a motherboard and a ball grid array (BGA) package. The interposer may provide a controlled heat source to reflow solder between the interposer and the BGA package. A technical problem faced by an interposer using RGA technology is application of solder to the RGA interposer. Technical solutions described herein provide processes and equipment for application of solder and formation of solder balls to connect an RGA interposer to a BGA package.

A method for producing a semiconductor package is a method for producing a semiconductor package in which a plurality of semiconductor chips, each of which includes a substrate, conductive portions formed on the substrate, and microbumps formed on the conductive portions, are laminated, which includes a heating process of causing a reducing gas to flow in an inert atmosphere into a space where the semiconductor chips are arranged and heated at or higher than a temperature of a melting point of the microbump, and in the heating process, a pressure application member is mounted on the microbump.