A capacitor includes: a semiconductor substrate; a first insulating layer disposed under the substrate; a first trench group disposed in the substrate and the first insulating layer, the first trench group includes two first trenches which penetrate through the substrate downward from an upper surface of the substrate and enter the first insulating layer, and bottoms of the two first trenches are communicated to form a first cavity structure located in the first insulating layer; a laminated structure disposed above the substrate, in the first trench group, and in the first cavity structure, the laminated structure includes m insulating layers and n conductive layers forming a structure that each insulating layer electrically isolates each conductive layer from each other; a first electrode layer electrically connected to all odd-numbered conductive layers; and a second electrode layer electrically connected to all even-numbered conductive layers.

A semiconductor device and a method of forming the same are provided. The semiconductor device includes a substrate, a deep trench capacitor (DTC) within the substrate, and an interconnect structure over the DTC and the substrate. The interconnect structure includes a seal ring structure in electrical contact with the substrate, a first conductive via in electrical contact with the DTC, and a first conductive line electrically coupling the seal ring structure to the first conductive via.

A semiconductor device includes a substrate having a semiconductor substrate, an insulator layer on the semiconductor substrate, and a silicon device layer on the insulator layer. At least one capacitor cavity with corrugated sidewall surface is disposed within the insulator layer between the semiconductor substrate and the silicon device layer. At least one buried capacitor is provided in the at least one capacitor cavity. The at least one buried capacitor includes an inner electrode and an outer electrode with a capacitor dielectric layer therebetween.

An embodiment a structure including a first semiconductor device bonded to a first side of a first redistribution structure by first conductive connectors, the first semiconductor device comprising a first plurality of passive elements formed on a first substrate, the first redistribution structure comprising a plurality of dielectric layers with metallization patterns therein, the metallization patterns of the first redistribution structure being electrically coupled to the first plurality of passive elements, a second semiconductor device bonded to a second side of the first redistribution structure by second conductive connectors, the second side of the first redistribution structure being opposite the first side of the first redistribution structure, the second semiconductor device comprising a second plurality of passive elements formed on a second substrate, the metallization patterns of the first redistribution structure being electrically coupled to the second plurality of passive elements.

A device includes a substrate including a low-resistance top surface and a fin structure including a first fin and a second fin. Each of the first and second fins includes a low-resistance fin-top surface and two low-resistance sidewall surfaces. The device includes an insulation material over the top surface of the substrate and between the first fin and the second fin. The fin-top surface and a first portion of the sidewall surfaces of each of the first and the second fins are above the insulation material. The device further includes a dielectric layer over the insulation material and in direct contact with the fin-top surface and the first portion of the sidewall surfaces of each of the first and the second fins; a first electrode in direct contact with the fin-top surface of the first fin; and a second electrode over the dielectric layer that is over the second fin.

The capacity of a MOS capacitor is increased. A semiconductor element includes a first semiconductor region, an insulation film, a gate electrode, and a second semiconductor region. The first semiconductor region is arranged on a semiconductor substrate and has a recess on the surface. The insulation film is arranged adjacent to the surface of the first semiconductor region. The gate electrode is arranged adjacent to the insulation film and constitutes a MOS capacitor with the first semiconductor region. The second semiconductor region is arranged adjacent to the first semiconductor region on the semiconductor substrate, formed in the same conductive type as the first semiconductor region, and supplies a carrier to the first semiconductor region when the MOS capacitor is charged and discharged.

A trench capacitor includes a plurality of trenches in a semiconductor substrate. A first polysilicon layer is located within the plurality of trenches and over a top surface of the substrate. The first polysilicon layer is continuous between the plurality of trenches. The trench capacitor further includes a plurality of second polysilicon layers. Each of the second polysilicon layers fills a corresponding trench of the plurality of trenches. The second polysilicon layers each extend to a top surface of the first polysilicon layer.

A semiconductor device includes an integrated trench capacitor in a substrate, with a field oxide layer on the substrate. The trench capacitor includes trenches extending into semiconductor material of the substrate, and a capacitor dielectric in the trenches on the semiconductor material. The trench capacitor further includes an electrically conductive trench-fill material on the capacitor dielectric. A portion of the capacitor dielectric extends into the field oxide layer, between a first segment of the field oxide layer over the trench-fill material and a second segment of the field oxide layer over the semiconductor material. The integrated trench capacitor has a trench contact to the trench-fill material in each of the trenches, and substrate contacts to the semiconductor material around the trenches, with no substrate contacts between the trenches.

An embodiment is a structure including a first semiconductor device and a second semiconductor device, a first set of conductive connectors mechanically and electrically bonding the first semiconductor device and the second semiconductor device, a first underfill between the first and second semiconductor devices and surrounding the first set of conductive connectors, a first encapsulant on at least sidewalls of the first and second semiconductor devices and the first underfill, and a second set of conductive connectors electrically coupled to the first semiconductor device, the second set of conductive connectors being on an opposite side of the first semiconductor device as the first set of conductive connectors.

A semiconductor device has a semiconductor substrate and a semiconductor film doped with impurities that is formed so as to cover an inner wall surface of a trench formed so as to extend from a first surface of the semiconductor substrate towards an interior thereof. The semiconductor film is formed so as to extend continuously from the inner wall surface to the first surface of the semiconductor substrate. The semiconductor device further has an opposite electrode having a first portion that is provided at a position opposing the semiconductor substrate while sandwiching the semiconductor film therebetween, and that extends on the first surface of the semiconductor substrate, and a second portion that is continuous with the first portion and extends so as to fill the trench. The semiconductor device further has an insulating film that insulates the semiconductor film from the opposite electrode.