Package assemblies including a die stack and related methods of use. The package assembly includes a substrate with a first surface, a second surface, and a third surface bordering a through-hole extending from the first surface to the second surface. The assembly further includes a die stack, a conductive layer, and a lid. The die stack includes a chip positioned inside the through-hole in the substrate. A section of the conductive layer is disposed on the third surface of the substrate. A portion of the lid is disposed between the first chip and the section of the conductive layer. The conductive layer is configured to be coupled with power, and the lid is configured to be coupled with ground. The portion of the lid may act as a first plate of a capacitor, and the section of the conductive layer may act as a second plate of the capacitor.

Package assemblies including a die stack and related methods of use. The package assembly includes a substrate with a first surface, a second surface, and a third surface bordering a through-hole extending from the first surface to the second surface. The assembly further includes a die stack, a conductive layer, and a lid. The die stack includes a chip positioned inside the through-hole in the substrate. A section of the conductive layer is disposed on the third surface of the substrate. A portion of the lid is disposed between the first chip and the section of the conductive layer. The conductive layer is configured to be coupled with power, and the lid is configured to be coupled with ground. The portion of the lid may act as a first plate of a capacitor, and the section of the conductive layer may act as a second plate of the capacitor.

A portable electronic device packaged into a System-in-Package assembly is disclosed. The portable electronic device can include a substrate and a plurality of components mounted on the substrate and included in one or more subsystems. Interference between subsystems or from external sources can be reduced or eliminated by disposing an insulating layer over the components, forming narrow trenches between subsystems, and conformally coating the insulating layer and trenches with a metal shielding layer. In some examples, trenches between subsystems can be formed using a laser source. In some examples, trenches between subsystems can have angled walls. In some examples, the metal shielding layer can be formed using at least one of electroplating, electroless plating, chemical vapor deposition, and physical vapor deposition.

A capacitor comprises a first winding member, where the first winding member comprises a first dielectric layer and a first conductive layer. A second winding member comprises a second dielectric layer and second conductive layer. The first winding member is interleaved, partially or entirely, with the second winding layer. A dielectric package is adapted to at least radially contain or border the first winding member and the second winding member. A first metallic member has a generally planar, radially extending surface for electrically and mechanically contacting an upper portion the first conductive layer. A second metallic member has a generally planar, radially extending surface for electrically and mechanically contacting a lower portion of the second conductive layer.

There are provided a printed circuit board and a manufacturing method thereof. The printed circuit board includes: a core layer having a cavity provided therein; an electronic component included in the cavity; a conductive partition disposed on a side of the cavity; and insulating layers disposed on and below the core layer.

A printed circuit board assembly is provided. A printed circuit board assembly includes a printed circuit board; an electronic component mounted on the printed circuit board; a heat radiating member which contacts the electronic component and is configured to receive and conduct heat generated by the electronic component; and at least one connection part connecting the printed circuit board and the heat radiating member to each other and configured to transfer the heat conducted through the heat radiating member to the printed circuit board.

A screw hole which is formed on one end of a substrate and through which an electronic device is attached to a metal frame by using a metal screw provided, an NAND memory as a heating section is provided on the screw hole side, a heat conducting sheet which covers an upper peripheral portion of the screw hole and an upper portion of the NAND memory is provided, and heat of the NAND memory is conducted to the metal frame through the heat conducting sheet and the metal screw fitted into the screw hole.

An electronic apparatus includes a first electronic part with a first terminal, a second electronic part with a second terminal opposite the first terminal, and a joining portion which joins the first terminal and the second terminal. The joining portion contains a pole-like compound extending in a direction in which the first terminal and the second terminal are opposite to each other. The joining portion contains the pole-like compound, so the strength of the joining portion is improved. When the first terminal and the second terminal are joined, the temperature of one of the first electronic part and the second electronic part is made higher than that of the other. A joining material is cooled and solidified in this state. By doing so, the pole-like compound is formed.

Disclosed are apparatus and methods related to ground paths implemented with surface mount devices to facilitate shielding of radio-frequency (RF) modules. In some embodiments, a module can include a packaging substrate configured to receive a plurality of components. The module can further include an RF component mounted on the packaging substrate and configured to facilitate processing of an RF signal. The module can further include an RF shield disposed relative to the RF component, with the RF shield being configured to provide shielding for the RF component. The RF shield can include at least one shielding-component configured to provide one or more electrical paths between a conductive layer on an upper surface of the module and a ground plane of the packaging substrate. The shielding-component can include a surface-mount device such as an RF filter implemented as a chip size surface acoustic wave (SAW) device (CSSD).

An electronic apparatus includes a first electronic part with a first terminal, a second electronic part with a second terminal opposite the first terminal, and a joining portion which joins the first terminal and the second terminal. The joining portion contains a pole-like compound extending in a direction in which the first terminal and the second terminal are opposite to each other. The joining portion contains the pole-like compound, so the strength of the joining portion is improved. When the first terminal and the second terminal are joined, the temperature of one of the first electronic part and the second electronic part is made higher than that of the other. A joining material is cooled and solidified in this state. By doing so, the pole-like compound is formed.