A semiconductor device has a differential height substrate including a first section and a second section thinner than the first section. The first section may include contact fingers for electrically coupling the semiconductor device to a connector in a slot of a host device. The second section may include one or more semiconductor dies and other components. Mold compound may encapsulate the semiconductor dies and other components, leaving the contact fingers in the first section of the substrate exposed. A second layer of mold compound may also be applied to a second, uniformly planar surface of the differential height substrate opposite a surface including the one or more semiconductor dies.

A semiconductor device has a differential height substrate including a first section and a second section thinner than the first section. The first section may include contact fingers for electrically coupling the semiconductor device to a connector in a slot of a host device. The second section may include one or more semiconductor dies and other components. Mold compound may encapsulate the semiconductor dies and other components, leaving the contact fingers in the first section of the substrate exposed. A second layer of mold compound may also be applied to a second, uniformly planar surface of the differential height substrate opposite a surface including the one or more semiconductor dies.

A semiconductor package is provided, including a package component and a number of conductive features. The package component has a non-planar surface. The conductive features are formed on the non-planar surface of the package component. The conductive features include a first conductive feature and a second conductive feature respectively arranged in a first position and a second position of the non-planar surface. The height of the first position is less than the height of the second position, and the size of the first conductive feature is smaller than the size of the second conductive feature.

A circuit board with reduced dielectric losses enabling the movement of high frequency signals includes an inner circuit board and two outer circuit boards. The inner circuit board includes a first conductor layer and a first substrate layer. The first conductor layer includes a signal line and two ground lines on both sides of the signal line. The first substrate layer covers a side of the first conductor layer and defines first through holes which expose the signal line. Each outer circuit board includes a second substrate layer and a second conductor layer. The second substrate layer abuts the inner circuit board and defines second through holes which are not aligned with the first through holes, partially surrounding the signal line with air which has a very low dielectric constant. A method for manufacturing the high-frequency circuit board is also disclosed.

A semiconductor module includes a main board and external terminals. A package substrate includes a core insulation layer, a conductive pattern disposed in the core insulation layer and electrically connected with the external terminals, an upper insulation pattern and a lower insulation pattern. At least one semiconductor chip is disposed on an upper surface of the package substrate and is electrically connected with the conductive pattern. A shielding plate is disposed on a molding member and lateral side surfaces of the package substrate and shields electromagnetic interference (EMI) emitted from the semiconductor chip. A shielding fence extends from an edge portion of a lower surface of the lower insulation pattern and directly contacts the upper surface of the main board. The shielding fence surrounds the external terminals and shields EMI emitted from the external terminals. A reinforcing member increases a strength of the shielding fence.

Disclosed are a semiconductor package and a manufacturing method thereof. Semiconductor chips may be disposed on a package substrate with vent holes formed therethrough, and a molding layer including a lower molding portion connected to an upper molding portion may be formed. The package substrate may include a substrate body with a plurality of unit regions, ball lands disposed in the unit regions, and first and second dam patterns that cross the unit regions and extend into edge regions, which is outside of the unit regions.

Disclosed are a semiconductor package and a manufacturing method thereof. Semiconductor chips may be disposed on a package substrate with vent holes formed therethrough, and a molding layer including a lower molding portion connected to an upper molding portion may be formed. The package substrate may include a substrate body with a plurality of unit regions, ball lands disposed in the unit regions, and first and second dam patterns that cross the unit regions and extend into edge regions, which is outside of the unit regions.

A semiconductor package includes an interposer including first and second surfaces opposite to each other. The semiconductor package also includes a heat dissipation layer disposed on the first surface of the interposer and a first semiconductor die mounted on the first surface of the interposer. The semiconductor package additionally includes a stack of second semiconductor dies mounted on the second surface of the interposer. The semiconductor package further includes a thermally conductive connection part for transferring heat from the stack of the second semiconductor dies to the heat dissipation layer.

A semiconductor package includes an interposer including first and second surfaces opposite to each other. The semiconductor package also includes a heat dissipation layer disposed on the first surface of the interposer and a first semiconductor die mounted on the first surface of the interposer. The semiconductor package additionally includes a stack of second semiconductor dies mounted on the second surface of the interposer. The semiconductor package further includes a thermally conductive connection part for transferring heat from the stack of the second semiconductor dies to the heat dissipation layer.

A semiconductor device package and a method of forming the same are provided. The semiconductor device package includes a substrate, an electronic component, a ring structure, and an adhesive layer. The electronic component is located over a first surface of the substrate. The ring structure is located over the first surface of the substrate and surrounding the electronic component. The ring structure has a bottom surface facing the first surface of the substrate and a top surface opposite the bottom surface. The ring structure includes a plurality of side parts and a plurality of corner parts recessed from the top surface and thinner than the side parts. Any two of the corner parts are separated from one another by one of the side parts. The adhesive layer is interposed between the bottom surface of the ring structure and the first surface of the substrate.