A semiconductor chip is mounted on a mounting substrate. The semiconductor chip includes plural first bumps on a surface facing the mounting substrate. The plural first bumps each have a shape elongated in a first direction in plan view and are arranged in a second direction perpendicular to the first direction. The mounting substrate includes, on a surface on which the semiconductor chip is mounted, at least one first land connected to the plural first bumps. At least two first bumps of the plural first bumps are connected to each first land. The difference between the dimension of the first land in the second direction and the distance between the outer edges of two first bumps at respective ends of the arranged first bumps connected to the first land is 20 μm or less.

A semiconductor chip is mounted on a mounting substrate. The semiconductor chip includes plural first bumps on a surface facing the mounting substrate. The plural first bumps each have a shape elongated in a first direction in plan view and are arranged in a second direction perpendicular to the first direction. The mounting substrate includes, on a surface on which the semiconductor chip is mounted, at least one first land connected to the plural first bumps. At least two first bumps of the plural first bumps are connected to each first land. The difference between the dimension of the first land in the second direction and the distance between the outer edges of two first bumps at respective ends of the arranged first bumps connected to the first land is 20 μm or less.

An electrode terminal includes a body and a first bonding part. The body includes a first metal material. Then, the first bonding part is bonded to one end of the body, and includes a second metal material which is a clad material other than the first metal material. The first bonding part is ultrasonically bondable to a first bonded member. An elastic part which is elastically deformable is provided between the one end of the body and the other end of the body.

A semiconductor device is provided with a semiconductor chip. The semiconductor chip has a semiconductor substrate, an interconnect layer, an inductor and conductive pads (first pads). The interconnect layer is provided on the semiconductor substrate. The interconnect layer includes the inductor. The pads are provided on the interconnect layer. The pads are provided in a region within a circuit forming region of the semiconductor chip, which does not overlap the inductor.

A method of fabricating a connection structure is disclosed. The method includes providing a substrate that has a top surface and includes a set of pads for soldering, each of which has a pad surface exposed from the top surface of the substrate. The method also includes applying a surface treatment to a part of the top surface of the substrate close to the pads and the pad surface of each pad so as to make at least the part of the top surface and the pad surfaces of the pads rougher. The surface treatment includes sandblasting.

A semiconductor device includes a board having a solder resist layer with first and second openings on a first surface, and a first electrode on the first surface, a portion thereof exposed in the first opening and electrically connected to the board. A second electrode is located on the first surface having a portion exposed in the second opening and electrically connected to the board. A portion of the second electrode is covered by the solder resist layer. A first solder bump is on the first electrode and covers a side surface. A second solder bump is on the second electrode. A semiconductor chip has a first region and a second region facing the first surface. A third electrode is in the first region and electrically connected to the first solder bump. A fourth electrode is in the second region and electrically connected to the second solder bump.

A printed circuit board (PCB) having a reliable electrical connection with connection terminals and a semiconductor package including the PCB, the printed circuit board including: a substrate base; a plurality of pads disposed on upper and lower surfaces of the substrate base; and a solder resist layer configured to cover at least a portion of the upper and lower surfaces of the substrate base, wherein at least some of the plurality of pads are groove pads comprising at least one annular groove in a side opposite to the substrate base.

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.

To improve reliability of a semiconductor device, in a flip-chip bonding step, a solder material that is attached to a tip end surface of a projecting electrode in advance and a solder material that is applied in advance over a terminal (bonding lead) are heated and thereby integrated and electrically connected to each other. The terminal includes a wide part (a first portion) with a first width W1 and a narrow part (a second portion) with a second width W2. When the solder material is heated, the thickness of the solder material arranged over the narrow part becomes smaller than the thickness of the solder material arranged in the wide part. Then, in the flip-chip bonding step, a projecting electrode is arranged over the narrow part and bonded onto the narrow part. Thus, the amount of protrusion of the solder material can be reduced.

A semiconductor device and a method of manufacturing a semiconductor device. As a non-limiting example, various aspects of this disclosure provide a semiconductor device, and a method of manufacturing thereof, that comprises a substrate including a dielectric layer, at least one conductive trace and conductive bump pad formed on one surface of the dielectric layer, and a protection layer covering the at least one conductive trace and conductive bump pad, the at least one conductive bump pad having one end exposed through the protection layer, and a semiconductor die electrically connected to the conductive bump pad of the substrate.