A semiconductor device is disclosed including one or more semiconductor dies mounted on substrate. Each semiconductor die may be formed with a ferromagnetic layer on a lower, inactive surface of the semiconductor die. The ferromagnetic layer pulls the semiconductor dies down against each other and the substrate during fabrication to prevent warping of the dies. The ferromagnetic layer also balances out a mismatch of coefficients of thermal expansion between layers of the dies, thus further preventing warping of the dies.

A semiconductor package including an insulating encapsulation, an integrated circuit component, and conductive elements is provided. The integrated circuit component is encapsulated in the insulating encapsulation, wherein the integrated circuit component has at least one through silicon via protruding from the integrated circuit component. The conductive elements are located on the insulating encapsulation, wherein one of the conductive elements is connected to the at least one through silicon via, and the integrated circuit component is electrically connected to the one of the conductive elements through the at least one through silicon via.

A semiconductor package including an insulating encapsulation, an integrated circuit component, and conductive elements is provided. The integrated circuit component is encapsulated in the insulating encapsulation, wherein the integrated circuit component has at least one through silicon via protruding from the integrated circuit component. The conductive elements are located on the insulating encapsulation, wherein one of the conductive elements is connected to the at least one through silicon via, and the integrated circuit component is electrically connected to the one of the conductive elements through the at least one through silicon via.

An IC package, comprising a first IC component comprising a first interconnect on a first surface thereof; a second IC component comprising a second interconnect on a second surface thereof. The second component is above the first component, and the second surface is opposite the first surface. A thermoelectric cooling (TEC) device is between the first surface and the second surface. The TEC device is electrically coupled to the first interconnect and to the second interconnect.

An IC package, comprising a first IC component comprising a first interconnect on a first surface thereof; a second IC component comprising a second interconnect on a second surface thereof. The second component is above the first component, and the second surface is opposite the first surface. A thermoelectric cooling (TEC) device is between the first surface and the second surface. The TEC device is electrically coupled to the first interconnect and to the second interconnect.

A semiconductor device including an integrated circuit, a dielectric layer, a plurality of connecting terminals and at least one dummy conductor is provided. The integrated circuit has a plurality of connecting pads, and the dielectric layer is disposed thereon and partially exposes the plurality of the connecting pads by a plurality of openings defined therein. The plurality of the connecting terminals is disposed on the plurality of the connecting pads exposed by the plurality of the openings. The at least one dummy conductor is disposed on the dielectric layer and electrically isolated from the integrated circuit. A substantial topology variation is between the plurality of the connecting terminals and the at least one dummy conductor. A semiconductor package having the semiconductor device is also provided.

A semiconductor device including an integrated circuit, a dielectric layer, a plurality of connecting terminals and at least one dummy conductor is provided. The integrated circuit has a plurality of connecting pads, and the dielectric layer is disposed thereon and partially exposes the plurality of the connecting pads by a plurality of openings defined therein. The plurality of the connecting terminals is disposed on the plurality of the connecting pads exposed by the plurality of the openings. The at least one dummy conductor is disposed on the dielectric layer and electrically isolated from the integrated circuit. A substantial topology variation is between the plurality of the connecting terminals and the at least one dummy conductor. A semiconductor package having the semiconductor device is also provided.

A method and device for input/output connections is provided. Devices and methods for connection structure are shown with improved mechanical properties such as hardness and abrasion resistance. Land grid array structures are provided that are less expensive to manufacture due to reductions in material cost such as gold. Ball grid array structures are provided with improved resistance to corrosion during fabrication. Ball grid array structures are also provided with improved mechanical properties resulting in improved shock testing results.

A semiconductor package including an insulating encapsulation, an integrated circuit component, and conductive elements is provided. The integrated circuit component is encapsulated in the insulating encapsulation, wherein the integrated circuit component has at least one through silicon via protruding from the integrated circuit component. The conductive elements are located on the insulating encapsulation, wherein one of the conductive elements is connected to the at least one through silicon via, and the integrated circuit component is electrically connected to the one of the conductive elements through the at least one through silicon via.

A semiconductor package including an insulating encapsulation, an integrated circuit component, and conductive elements is provided. The integrated circuit component is encapsulated in the insulating encapsulation, wherein the integrated circuit component has at least one through silicon via protruding from the integrated circuit component. The conductive elements are located on the insulating encapsulation, wherein one of the conductive elements is connected to the at least one through silicon via, and the integrated circuit component is electrically connected to the one of the conductive elements through the at least one through silicon via.