A device structure, along with methods of forming such, are described. The device structure includes a structure, a first passivation layer disposed on the structure, a buffer layer disposed on the first passivation layer, a barrier layer disposed on a first portion of the buffer layer, a redistribution layer disposed over the barrier layer, an adhesion layer disposed on the barrier layer and on side surfaces of the redistribution layer, and a second passivation layer disposed on a second portion of the buffer layer. The second passivation layer is in contact with the barrier layer, the adhesion layer, and the redistribution layer.

A semiconductor device, including a capacitor, a semiconductor module having a first power terminal formed on a front surface of a first insulating member, and a connecting member electrically connecting and mechanically coupling the semiconductor module and the capacitor to each other, the connecting member having a front surface and a rear surface opposite to each other, the rear surface being on a front surface of the first power terminal. The connecting member is bonded to the semiconductor module via a first welded portion, which penetrates the front and rear surfaces of the connecting member, and penetrates the front surface of the first power terminal, in a thickness direction of the semiconductor device, a distance in the thickness direction between a bottommost portion of first welded portion and the front surface of the first insulating member being 0.3 mm or more.

A semiconductor device of a hybrid type includes: a light-emitting element forming a power loop; a semiconductor integrated circuit element including a switching element; and a bypass capacitor. The light-emitting element and the switching element constitute a layered body in which respective principal surfaces of the light-emitting element and the switching element are layered in parallel and face-to-face. The bypass capacitor includes one electrode connected to a lower element of the layered body, and an other electrode connected to an upper element of the layered body. In a plan view, when a direction from the one electrode to the other electrode inside the bypass capacitor is a first direction, the bypass capacitor is arranged so that a side of the bypass capacitor parallel to the first direction includes a portion that is parallel to and faces one peripheral side of the layered body.

A semiconductor device includes: a metal sheet; an insulating pattern provided on the metal sheet; a power circuit pattern and a signal circuit pattern that are provided on the insulating pattern; a power semiconductor chip mounted on the power circuit pattern; and a control semiconductor chip that is mounted on the signal circuit pattern and controls the power semiconductor chip. The power semiconductor chip is bonded to the power circuit pattern with a first die bonding material comprised of copper, and the control semiconductor chip is bonded to the signal circuit pattern with a second die bonding material.

An improved trench capacitor structure is disclosed that allows for the formation of narrower capacitors. An example capacitor structure includes a first conductive layer on the sidewalls of an opening through a thickness of a dielectric layer, a capacitor dielectric layer on the first conductive layer, a second conductive layer on the capacitor dielectric layer, and a conductive fill material on the second conductive layer. The capacitor dielectric layer laterally extends above the opening and along a top surface of the dielectric layer, and the conductive fill material fills a remaining portion of the opening.

A semiconductor package includes a package base substrate including a potential plate. An interposer is arranged on the package base substrate and comprises at least one interposer through electrode, at least one first connection bump, and at least one second connection bump. A first stacked chip unit is arranged on the interposer and comprises a first semiconductor chip and at least one second semiconductor chips arranged on the first semiconductor chip. At least one passive device unit is arranged on the package base substrate. The at least one passive device unit is spaced apart from the interposer in a horizontal direction parallel to an upper surface of the package base substrate. The at least one first connection bump is a dummy bump. The potential plate electrically connects the at least one first connection bump and a power terminal of the at least one passive device unit to each other.

A semiconductor structure and a manufacturing method thereof are provided. The semiconductor structure includes a substrate, a semiconductor device, an interconnect structure, a capacitor, and a plurality of pads. The semiconductor device is disposed at the substrate. The interconnect structure is disposed on the substrate and electrically connected to the semiconductor device. The capacitor is disposed on the interconnect structure and electrically connected to the interconnect structure. The capacitor includes a first electrode, a second electrode covering a top surface and a sidewall of the first electrode, and an insulating layer disposed between the first electrode and the second electrode. The plurality of pads are disposed on the interconnect structure and electrically connected to the interconnect structure, wherein at least one of the plurality of pads is electrically connected to the capacitor.

A transistor device includes a metal submount; a transistor die arranged on said metal submount; a first integrated passive device (IPD) component that includes a first substrate arranged on said metal submount; and a second integrated passive device (IPD) component that includes a second substrate arranged on the metal submount. Additionally, the first substrate is a different material from the second substrate.

An integrated circuit (IC) package is described. The IC package includes a first die having a first power delivery network on the first die. The IC package also includes a second die having a second power delivery network on the second die. The first die is stacked on the second die. The IC package further includes package voltage regulators integrated with and coupled to the first die and/or the second die within a package core of the integrated circuit package.

Provided is packages and method of fabricating the same. The package includes a first die, a second die, and an inductor. The second die is bonded to the first die through a bonding structure thereof. The inductor is located in the bonding structure. The inductor includes a spiral pattern parallel to top surfaces of the first die and the second die, and the spiral pattern includes at least a turn.