In some embodiments, the present disclosure relates to a device that includes an interconnect structure arranged on a frontside of a substrate. The interconnect structure includes interconnect conductive structures embedded within interconnect dielectric layers. A trench extends completely through the substrate to expose multiples ones of the interconnect conductive structures. A bond pad structure is arranged on a backside of the substrate and extends through the trench of the substrate to contact the multiple ones of the interconnect conductive structures. A bonding structure is arranged on the backside of the substrate and electrically contacts the bond pad structure.

Semiconductor devices having electrical interconnections through vertically stacked semiconductor dies, and associated systems and methods, are disclosed herein. In some embodiments, a semiconductor assembly includes a die stack having a plurality of semiconductor dies. Each semiconductor die can include surfaces having an insulating material, a recess formed in at least one surface, and a conductive pad within the recess. The semiconductor dies can be directly coupled to each other via the insulating material. The semiconductor assembly can further include an interconnect structure electrically coupled to each of the semiconductor dies. The interconnect structure can include a monolithic via extending continuously through each of the semiconductor dies in the die stack. The interconnect structure can also include a plurality of protrusions extending from the monolithic via. Each protrusion can be positioned within the recess of a respective semiconductor die and can be electrically coupled to the conductive pad within the recess.

The present application provides a method for fabricating a semiconductor device including providing a first semiconductor die including a first substrate including a first substrate including a first region and a second region, a plurality of first through substrate vias in the first region, a first circuit layer on the first substrate, and a control circuit on the first region and in the first circuit layer; forming a plurality of through die vias vertically along the first circuit layer and the second region; providing a second semiconductor die including a plurality of second conductive pads substantially coplanar with a top surface of the second semiconductor die; providing a third semiconductor die including a plurality of third conductive pads substantially coplanar with a top surface of the third semiconductor die; flipping the second semiconductor die and bonding the second semiconductor die onto the first circuit layer.

Disclosed is a semiconductor package comprising a first memory chip including a first semiconductor substrate and a first through structure that penetrates the first semiconductor substrate, a second memory chip that directly contacts a top surface of the first memory chip and includes a second semiconductor substrate and a second through structure that penetrates the second semiconductor substrate, a first dummy chip that directly contacts a top surface of the second memory chip and includes a first conductive via, a second dummy chip that directly contacts a top surface of the first dummy chip and includes a second conductive via, and a logic chip in direct contact with a top surface of the second dummy chip. The logic chip is electrically connected to the first through structure through the second conductive via, the first conductive via, and the second through structure.

Microelectronic devices with through-substrate interconnects and associated methods of manufacturing are disclosed herein. In one embodiment, a semiconductor device includes a semiconductor substrate carrying first and second metallization layers. The second metallization layer is spaced apart from the semiconductor substrate with the first metallization layer therebetween. The semiconductor device also includes a conductive interconnect extending at least partially through the semiconductor substrate. The first metallization layer is in electrical contact with the conductive interconnect via the second metallization layer.

An integrated circuit device may be formed including an electronic substrate and a metallization structure on the electronic substrate, wherein the metallization structure includes a first level comprising a first dielectric material layer, a second level on the first level, wherein the second level comprises a second dielectric material layer, a third level on the second level, wherein the third level comprises a third dielectric material layer, at least one power/ground structure in the second level, and at least one skip level via extending at least partially through the first dielectric material layer of the first level, through the second dielectric layer of the second level, and at least partially through the third dielectric material layer of the third level, wherein the at least one skip level via comprises a continuous conductive material.

According to one embodiment, a semiconductor device includes a first substrate; a first insulating film provided on the first substrate; a first plug provided in the first insulating film; a second substrate provided on the first insulating film; and a first wiring including a first portion and a second portion. The first portion is provided in the second substrate and coupled to the first plug, and the second portion is provided on the second substrate and coupled to a bonding pad.

A semiconductor package includes a first semiconductor chip having a first substrate, a first insulating layer on the first substrate, and a plurality of first bonding pads on the first insulating layer, and having a flat upper surface by an upper surface of the first insulating layer and upper surfaces of the plurality of first bonding pads; and a second semiconductor chip on the upper surface of the first semiconductor chip and having a second substrate, a second insulating layer below the second substrate and in contact with the first insulating layer, and a plurality of second bonding pads on the second insulating layer and in contact with the first bonding pads, respectively, wherein the first insulating layer includes an insulating interfacial layer in contact with the second insulating layer, embedded in the first insulating layer, and spaced apart from the plurality of first bonding pads.

A semiconductor device, the device including: a first silicon layer including a first single crystal silicon; a first metal layer disposed over the first silicon layer; a second metal layer disposed over the first metal layer; a first level including a plurality of transistors, the first level disposed over the second metal layer, where the plurality of transistors include a second single crystal silicon; a third metal layer disposed over the first level; a fourth metal layer disposed over the third metal layer, where the fourth metal layer is aligned to the first metal layer with a less than 40 nm alignment error; and a via disposed through the first level, where the first level thickness is less than two microns.

A semiconductor package includes a package substrate and a plurality of sub-packages provided on the package substrate. Each of the plurality of sub-packages includes a semiconductor chip, an interposer provided adjacent to the semiconductor chip, the interposer including a plurality of first through-silicon vias, an encapsulator provided between the semiconductor chip and the interposer, and a redistribution layer provided on the interposer, the encapsulator and the semiconductor chip. The semiconductor chip includes a semiconductor substrate having a first surface and a second surface opposite the first surface and a plurality of chip pads provided on the first surface. The redistribution layer includes a plurality of redistribution pads and a horizontal wiring provided between the plurality of redistribution pads and the plurality of first through-silicon vias. The redistribution layer is provided on the second surface of the semiconductor substrate, and extends on the encapsulator and the interposer.