A package includes an integrated circuit. The integrated circuit includes a first chip, a dummy chip, a second chip, and a third chip. The first chip includes a semiconductor substrate that extends continuously from an edge of the first chip to another edge of the first chip. The dummy chip is disposed over the first chip and includes a semiconductor substrate that extends continuously from an edge of the dummy chip to another edge of the dummy chip. Sidewalls of the first chip are aligned with sidewalls of the dummy chip. The second chip and the third chip are sandwiched between the first chip and the dummy chip. A thickness of the second chip is substantially equal to a thickness of the third chip.

In a semiconductor device according to the present disclosure, one end and the other end of a plurality of insulation covering wires are joined to a connection region in an upper electrode of a DBC substrate over a semiconductor element while an insulation covering portion in a center region has contact with a surface of the semiconductor element. The plurality of insulation covering wires are provided along an X direction in the same manner as the plurality of metal wires. The plurality of insulation covering wires are provided with no loosening, thus have press force of pressing the semiconductor element in a direction of the solder joint portion.

A semiconductor device includes an inductance structure and a shielding structure. The shielding structure is arranged to at least partially shield the inductance structure from external electromagnetic fields. The shielding structure includes a shielding structure portion arranged along a side of the inductance structure such that the shielding structure portion is around at least a portion of a perimeter of the inductance structure.

A semiconductor device includes an inductance structure and a shielding structure. The shielding structure is arranged to at least partially shield the inductance structure from external electromagnetic fields. The shielding structure includes a shielding structure portion arranged along a side of the inductance structure such that the shielding structure portion is around at least a portion of a perimeter of the inductance structure.

Techniques for interconnecting chips using a bridge chip having through vias is provided. In one aspect, a structure includes: a bridge chip attached to at least a first chip and a second chip, wherein the bridge chip has at least one conductive through via connecting the bridge chip to one of the first chip and the second chip. The bridge chip can include a wiring layer having metal lines present between a first capping layer and a second capping layer, and the at least one conductive through via can directly contact at least a sidewall of at least one of the metal lines. A method of integrating chips using the present bridge chip is also provided.

Semiconductor devices having recessed edges with plated structures, semiconductor assemblies formed therefrom, and associated systems and methods are disclosed herein. In one embodiment, a semiconductor assembly includes a first semiconductor device and a second semiconductor device. The first semiconductor device can include an upper surface and a first dielectric layer over the upper surface, the second semiconductor device can include a lower surface and a second dielectric layer over the lower surface, and the first and second dielectric layers can be bonded to couple the first and second semiconductor devices. The first and second dielectric layers can each include a plurality of inwardly extending recesses exposing a plurality of metal structures on the respective upper and lower surfaces, and the upper surface recesses and metal structures can correspond to the lower surface recesses and metal structures. The metal structures can be electrically coupled by plated structures positioned in the recesses.

Semiconductor devices having recessed edges with plated structures, semiconductor assemblies formed therefrom, and associated systems and methods are disclosed herein. In one embodiment, a semiconductor assembly includes a first semiconductor device and a second semiconductor device. The first semiconductor device can include an upper surface and a first dielectric layer over the upper surface, the second semiconductor device can include a lower surface and a second dielectric layer over the lower surface, and the first and second dielectric layers can be bonded to couple the first and second semiconductor devices. The first and second dielectric layers can each include a plurality of inwardly extending recesses exposing a plurality of metal structures on the respective upper and lower surfaces, and the upper surface recesses and metal structures can correspond to the lower surface recesses and metal structures. The metal structures can be electrically coupled by plated structures positioned in the recesses.

A semiconductor device includes an inductance structure and a shielding structure. The shielding structure is arranged to at least partially shield the inductance structure from external electromagnetic fields. The shielding structure includes a shielding structure portion arranged along a side of the inductance structure such that the shielding structure portion is around at least a portion of a perimeter of the inductance structure.

A semiconductor device includes an inductance structure and a shielding structure. The shielding structure is arranged to at least partially shield the inductance structure from external electromagnetic fields. The shielding structure includes a shielding structure portion arranged along a side of the inductance structure such that the shielding structure portion is around at least a portion of a perimeter of the inductance structure.

A semiconductor device and a method of forming the same are provided. The semiconductor device includes a first logic die including a first through via, an image sensor die hybrid bonded to the first logic die, and a second logic die bonded to the first logic die. A front side of the first logic die facing a front side of the image sensor die. A front side of the second logic die facing a backside of the first logic die. The second logic die comprising a first conductive pad electrically coupled to the first through via.