Patent ID: 8884396

Claim:
A semiconductor device comprising: a first substrate structure including: a first substrate; a first metal layer having a first gap above a first front surface of the first substrate; a first insulating layer formed above each of the first metal layer and the first front surface; and a first conductor embedded in a first via hole at a forming position of the first metal layer, the first via hole penetrating the first substrate in a thickness direction thereof, and a second substrate structure including: a second substrate; and a second conductor embedded in a second via hole penetrating the second substrate in a thickness direction thereof, a second metal layer formed above the second front surface and having a second gap; and a second insulating layer formed above each of the second metal layer and the second front surface, wherein a first back surface opposed to the first front surface of the first substrate structure and a second front surface of the second substrate structure are joined together so as to connect the first conductor with the second conductor, the first conductor includes a first portion disposed in the first gap, and a second portion which has a diameter greater than that of the first gap and smaller than an outer diameter of the first metal layer and is disposed in a range between a back surface of the first metal layer and the first back surface of the first substrate structure, a diameter of the first conductor changes discontinuously at a boundary between the first portion and the second portion, the first insulating layer has a gap formed above the first metal layer, the gap being greater than the first gap and smaller than the outer diameter of the first metal layer, the second portion is located in the first substrate, the second conductor includes a third portion disposed in the second gap, and a fourth portion which has a diameter greater than that of the second gap and smaller than an outer diameter of the second metal layer and is disposed in a range between the back surface of the second metal layer and a second back surface of the second substrate, the second back surface being opposed to the second front surface, a diameter of the second conductor changes discontinuously at a boundary between the third portion and the fourth portion, the second insulating layer has a gap formed above the second metal layer, the gap being greater than the second gap and smaller than the outer diameter of the second metal layer, and the fourth portion is located in the second substrate.