A semiconductor device includes a semiconductor element, a trace disposed adjacent to a surface of the semiconductor element, a bonding pad disposed adjacent to the surface of the semiconductor element and connected to the trace, and a pillar disposed on the bonding pad. The pillar includes a first end wall, a second end wall opposite the first end wall, a first side wall, and a second side wall opposite the first side wall. The first side wall and the second side wall connect the first end wall to the second end wall. One or both of the first side wall and the second side wall incline inwardly from the first end wall to the second end wall. The pillar is disposed on the bonding pad such that the first end wall is closer to the trace than is the second end wall.

A semiconductor device includes a semiconductor element, a trace disposed adjacent to a surface of the semiconductor element, a bonding pad disposed adjacent to the surface of the semiconductor element and connected to the trace, and a pillar disposed on the bonding pad. The pillar includes a first end wall, a second end wall opposite the first end wall, a first side wall, and a second side wall opposite the first side wall. The first side wall and the second side wall connect the first end wall to the second end wall. One or both of the first side wall and the second side wall incline inwardly from the first end wall to the second end wall. The pillar is disposed on the bonding pad such that the first end wall is closer to the trace than is the second end wall.

A semiconductor device with redistribution layers on partial encapsulation is disclosed and may include a semiconductor die having a first surface, a second surface opposite to the first surface, and side surfaces between the first and second surfaces; an encapsulant encapsulating the side surfaces of the semiconductor die; a contact pad on the first surface of the semiconductor die; and a redistribution layer coupled to the contact pad The redistribution layer may include a linear portion and a circular pad, and a hemispherical conductive bump on the circular pad may include a protruding part extending toward the linear portion and having a radius less than the hemispherical conductive bump. The second surface of the semiconductor die may be coplanar with a surface of the encapsulant. A dielectric layer may cover a portion of the first surface of the semiconductor die and a first surface of the encapsulant.

A semiconductor device with redistribution layers on partial encapsulation is disclosed and may include a semiconductor die having a first surface, a second surface opposite to the first surface, and side surfaces between the first and second surfaces; an encapsulant encapsulating the side surfaces of the semiconductor die; a contact pad on the first surface of the semiconductor die; and a redistribution layer coupled to the contact pad The redistribution layer may include a linear portion and a circular pad, and a hemispherical conductive bump on the circular pad may include a protruding part extending toward the linear portion and having a radius less than the hemispherical conductive bump. The second surface of the semiconductor die may be coplanar with a surface of the encapsulant. A dielectric layer may cover a portion of the first surface of the semiconductor die and a first surface of the encapsulant.

A flip-chip mounting technique with high reliability is provided in flip-chip mounting using a Cu pillar. In a semiconductor device to be coupled to a mounting board via a Cu pillar, the Cu pillar is caused to have a laminated structure including a pillar layer, a barrier layer, and a bump in this order from below, and the bump is formed to be smaller than the barrier layer.

A flip-chip mounting technique with high reliability is provided in flip-chip mounting using a Cu pillar. In a semiconductor device to be coupled to a mounting board via a Cu pillar, the Cu pillar is caused to have a laminated structure including a pillar layer, a barrier layer, and a bump in this order from below, and the bump is formed to be smaller than the barrier layer.

A device includes a work piece including a metal bump; and a dielectric layer having a portion directly over the metal bump. The metal bump and a surface of the portion of the dielectric layer form an interface. A metal finish is formed over and contacting the metal bump. The metal finish extends from over the dielectric layer to below the interface.

A device includes a work piece including a metal bump; and a dielectric layer having a portion directly over the metal bump. The metal bump and a surface of the portion of the dielectric layer form an interface. A metal finish is formed over and contacting the metal bump. The metal finish extends from over the dielectric layer to below the interface.

Semiconductor devices and methods are provided. The semiconductor device can include a semiconductor substrate, a plurality of solder pads disposed on the semiconductor substrate, a first insulating layer disposed over the semiconductor substrate, a columnar electrode disposed over the solder pad, and a solder ball disposed on the columnar electrode. The first insulating layer can include a first opening to expose a solder pad of the plurality of solder pads. The columnar electrode can include a bulk material and a through hole in the bulk material. The through hole can expose at least a surface portion of the solder pad. The solder ball can include a convex metal head on a top surface of the bulk material of the columnar electrode, and a filling part filled in the through hole.

Semiconductor devices and methods are provided. The semiconductor device can include a semiconductor substrate, a plurality of solder pads disposed on the semiconductor substrate, a first insulating layer disposed over the semiconductor substrate, a columnar electrode disposed over the solder pad, and a solder ball disposed on the columnar electrode. The first insulating layer can include a first opening to expose a solder pad of the plurality of solder pads. The columnar electrode can include a bulk material and a through hole in the bulk material. The through hole can expose at least a surface portion of the solder pad. The solder ball can include a convex metal head on a top surface of the bulk material of the columnar electrode, and a filling part filled in the through hole.