A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A light emitting apparatus includes a positive lead terminal and a negative lead terminal, each of which includes a first main surface, a second main surface, and an end surface including a first recessed surface area extending from a first point of the first main surface in cross section, and a second recessed surface area extending from a second point of the second main surface in cross section. A distance between a first part of the end surface of the positive lead terminal and a second part of the end surface of the negative lead terminal than a first distance between the first points of the positive lead terminal and the negative lead terminal and a second distance between the second points of the positive lead terminal and the negative lead terminal. The first part and the second part are separated from the first point and the second point.

A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A light emitting apparatus includes a positive lead terminal and a negative lead terminal, each of which includes a first main surface, a second main surface, and an end surface including a first recessed surface area extending from a first point of the first main surface in cross section, and a second recessed surface area extending from a second point of the second main surface in cross section. A distance between a first part of the end surface of the positive lead terminal and a second part of the end surface of the negative lead terminal than a first distance between the first points of the positive lead terminal and the negative lead terminal and a second distance between the second points of the positive lead terminal and the negative lead terminal. The first part and the second part are separated from the first point and the second point.

A light emitting device mount includes a positive lead terminal, and a negative lead terminal. Each of the positive and negative lead terminal includes a first main surface, a second main surface, and an end surface. The end surface is provided between the first main surface and the second main surface. The end surface includes a first recessed surface area and a second recessed surface area. The first recessed surface area is extending from a first point of the first main surface in cross section. The second recessed surface area is extending from a second point of the second main surface in cross section. The first and second recessed surface areas define a protruding portion protruding outwardly.

A semiconductor package structure includes a substrate, and a package preform. The substrate includes a plurality of conductive tracing wires. The package preform includes a semiconductor chip and a plurality of binding wires. The semiconductor chip includes a plurality of welding spots, and the welding spots are electrically connected with corresponding conductive tracing wires by the binding wires. Each binding wire comprises a carbon nanotube composite wire, the carbon nanotube composite wire includes a carbon nanotube wire and a metal layer. The carbon nanotube wire consists of a plurality of carbon nanotubes spirally arranged along an axial direction an axial direction of the carbon nanotube wire.