A semiconductor device package includes a connection structure having a first portion and a second portion extending from the first portion, the second portion having a width less than the first portion; and a dielectric layer surrounding the connection structure, wherein the dielectric layer and the second portion of the connection structure defines a space.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a substrate, a pad structure positioned above the substrate, and a top groove positioned on a top surface of the pad structure. The method for fabricating the semiconductor device includes forming a pad structure over a substrate and forming a top groove on a top surface of the pad structure.

the semiconductor device includes a substrate, a semiconductor element bonded to the substrate, and a sealing resin sealing at least a part of the substrate and the semiconductor element, in which the semiconductor element includes an active region through which a main current flows in an ON state of the semiconductor element, a terminal region surrounding the active region, an anchor film provided on an insulating film of the terminal region, and a protective film covering at least the terminal region including the anchor film, and the anchor film consists of a material different from the insulating film and has a plurality of openings provided discretely.

A semiconductor device package includes a connection structure having a first portion and a second portion extending from the first portion, the second portion having a width less than the first portion; and a dielectric layer surrounding the connection structure, wherein the dielectric layer and the second portion of the connection structure defines a space.

A semiconductor structure and manufacturing method thereof are provided. The semiconductor structure includes a metallization structure with a dielectric surface. A first protecting structure is on the dielectric surface. A conductive pad is on the dielectric surface and is leveled with the first protecting structure. A polymer layer is over the first protecting structure and the conductive pad. A conductive bump is electrically coupled to the conductive pad through an opening of the polymer layer. A method for manufacturing a semiconductor structure is also provided.

A method may include forming a metal pattern in a metal layer of a fabricated integrated circuit device and under a target bump of the fabricated integrated circuit device, wherein the metal pattern has an inner shape and an outer field such that a void space in the metal layer is created between the inner shape and the outer field and approximately centering the void space on an outline of an under-bump metal formed under the target bump with a keepout distance from the inner shape and the outer field on either side of the outline such that the metal minimizes local variations in mechanical stress on underlying structures within the fabricated integrated circuit device.

A semiconductor structure is provided. The semiconductor structure includes a metallization structure with a dielectric surface. A first protecting structure over the dielectric surface. A first protecting structure over the passivation layer. A conductive pad over the dielectric surface. A polymer layer over the first protecting structure and the conductive pad. A conductive bump electrically coupled to the conductive pad through an opening of the polymer layer. A first portion of the first protecting structure is leveled with the conductive pad and a second portion of the first protecting structure is higher than the conductive pad.

Semiconductor devices having metallization structures including crack-inhibiting structures, and associated systems and methods, are disclosed herein. In one embodiment, a semiconductor device includes a metallization structure formed over a semiconductor substrate. The metallization structure can include a bond pad electrically coupled to the semiconductor substrate via one or more layers of conductive material, and an insulating materialsuch as a low- dielectric materialat least partially around the conductive material. The metallization structure can further include a crack-inhibiting structure positioned beneath the bond pad between the bond pad and the semiconductor substrate. The crack-inhibiting structure can include a barrier member extending vertically from the bond pad toward the semiconductor substrate and configured to inhibit crack propagation through the insulating material.

A semiconductor structure and manufacturing method thereof are provided. The semiconductor structure includes a metallization structure with a dielectric surface. A first protecting structure is on the dielectric surface. A conductive pad is on the dielectric surface and is leveled with the first protecting structure. A polymer layer is over the first protecting structure and the conductive pad. A conductive bump is electrically coupled to the conductive pad through an opening of the polymer layer. A method for manufacturing a semiconductor structure is also provided.

A semiconductor package includes an interposer chip having a frontside, a backside, and a corner area on the backside defined by a first corner edge and a second corner edge of the interposer chip. A die is bonded to the frontside of the interposer chip. At least one dam structure is formed on the corner area of the backside of the interposer chip. The dam structure includes an edge aligned to at least one the first corner edge and the second corner edge of the interposer chip.