Methods/structures of joining package structures are described. Those methods/structures may include a die disposed on a surface of a substrate, an interconnect bridge embedded in the substrate, and at least one vertical interconnect structure disposed through a portion of the interconnect bridge, wherein the at least one vertical interconnect structure is electrically and physically coupled to the die.

In a method of manufacturing a semiconductor package, at least one conductive wire is formed on a substrate in a wire bonding process, a ball end of the conductive wire is located above the substrate, a molding material is provided to cover the conductive wire except the ball end, and an EMI shielding layer is formed on the molding material to connect to the ball end. Owing to the ball end is exposed on the molding material, connection area of the EMI shielding layer to the conductive wire is increased to improve connection strength and reliability between the EMI shielding layer and the conductive wire.

A semiconductor device includes a plurality of semiconductor elements, each of which has a first electrode, a second electrode, and a third electrode, and is subjected to an ON-OFF control between the first electrode and the second electrode in accordance with a driving signal input to the third electrode. Further, the semiconductor device includes a control terminal to which the driving signal is input, a first wiring portion to which the control terminal is connected, a second wiring portion separated from the first wiring portion, a first connection member to conduct the first wiring portion and the second wiring portion, and a second connection member to conduct the second wiring portion and the third electrode of one of the plurality of semiconductor elements. The respective first electrodes of the plurality of semiconductor elements are electrically connected to one another, and respective second electrodes of the plurality of semiconductor elements are electrically connected to one another.

A possible benefit of the present disclosure is to further improve a heat dissipation property of an electronic component. A high-frequency module includes a mounting substrate, a filter (for example, a transmission filter), a resin layer, a shielding layer, and a metal member. The resin layer covers at least a portion of an outer peripheral surface (for example, an outer peripheral surface) of the filter. The shielding layer covers at least a portion of the resin layer. The metal member is disposed at a first principal surface of the mounting substrate. The metal member is connected to a surface of the filter on the opposite side from the mounting substrate, the shielding layer, and the first principal surface of the mounting substrate.

A die substrate, including a dielectric body, the body having a first body surface, a second body surface on an opposite side and body edge surfaces located in between. Current-carrying metal lines located in the dielectric body. One or more of the metal lines routed to one or more of the body edge surfaces. A termination layer located on the at least one body edge surface and electrically connected to the least one of the metal lines routed to the body edge surfaces. Electrically conductive plating located on the at least one body edge surface. The plating connected to the termination layer for an electrical current connection or a ground connection to the at least one metal line. A method of manufacturing an integrated circuit package, the package and a computer having the die substrate are also disclosed.

A package structure and method for forming the same are provided. The package structure includes a substrate having a front surface and a back surface, and a die formed on the back surface of the substrate. The package structure includes a first through via structure formed in the substrate, a conductive structure formed in a passivation layer) over the front surface of the substrate. The conductive structure includes a via portion in direct contact with the substrate. The package structure includes a connector (formed over the via portion, wherein the connector includes an extending portion directly on a recessed top surface of the via portion.

An electronic device package and method of fabricating such a package includes a first and second components encapsulated in a volume of molding material. A surface of the first component is bonded to a surface of the second component. Upper and lower sets of redistribution lowers that include, respectively, first and second sets of conductive interconnects are formed on opposite sides of the molding material. A through-package interconnect passes through the volume of molding material and has ends that terminate, respectively, within the upper set of redistribution layers and within the lower set of redistribution layers.

An integrated circuit package can contain a semiconductor die and provide electrical connections between the semiconductor die and additional electronic components. The integrated circuit package can reduce stress placed on the semiconductor die due to movement of the integrated circuit package due to, for example, temperature changes and/or moisture levels. The integrated circuit package can at least partially mechanically isolate the semiconductor die from the integrated circuit package.

A method for fabricating a package structure is provided. The method includes forming a metal layer over a carrier substrate. The method includes forming a dielectric layer over the metal layer. The method includes forming a plurality of first openings in the dielectric layer. The method includes forming a plurality of second openings in the dielectric layer. The first openings and the second openings expose the metal layer. The method includes forming a conductive material in the first openings and the second openings to form a plurality of conductive features. The method includes removing the metal layer and the carrier substrate. The method includes thinning the dielectric layer around the conductive features. The method also includes bonding a package component to the conductive features.

A package comprising an integrated device and a substrate coupled to the integrated device, wherein the substrate comprises a plurality of via interconnects, and wherein at least one via interconnect from the plurality of via interconnects comprises a planar cross sectional shape that includes a concave portion.