A semiconductor package comprises a base substrate, a first semiconductor chip on the base substrate, a first dam structure which overlaps a corner of the first semiconductor chip from a plan view and is placed on the base substrate and a first fillet layer which is placed vertically between the base substrate and the first semiconductor chip, and vertically between the first dam structure and the first semiconductor chip.

A package substrate based on a molding process may include an encapsulation layer, a support frame located in the encapsulation layer, a base, a device located on an upper surface of the base, a copper boss located on a lower surface of the base, a conductive copper pillar layer penetrating the encapsulation layer in the height direction, and a first circuit layer and a second circuit layer over and under the encapsulation layer. The second circuit layer includes a second conductive circuit and a heat dissipation circuit, the first circuit layer and the second conductive circuit are connected conductively through the conductive copper pillar layer, the heat dissipation circuit is connected to one side of the device through the copper boss and the base, and the first circuit layer is connected to the other side of the device.

In one example, an electronic device comprises a substrate comprising a conductive structure and an inner side and an outer side, a first electronic component over the inner side of the substrate and coupled with the conductive structure, a lid over the substrate and the first electronic component and comprising a first hole in the lid, and a thermal interface material between the first electronic component and the lid. The thermal interface material is in the first hole. Other examples and related methods are also disclosed herein.

A semiconductor package is provided. The semiconductor package includes: a lower equipotential plate provided in a lower wiring layer; an upper equipotential plate provided in an upper wiring layer; a pair of differential signal wiring lines provided in a signal wiring layer that is between the lower equipotential plate and the upper equipotential plate, wherein the pair of differential signal wiring lines includes a first differential signal wiring line and a second differential signal wiring line which are spaced apart from each other and extend in parallel; and a wiring insulating layer surrounding the pair of differential signal wiring lines, and filling between the signal wiring layer, the lower wiring layer, and the upper wiring layer. The wiring insulating layer includes a first wiring insulating layer surrounding the pair of differential signal wiring lines, and a second wiring insulating layer, and the first wiring insulating layer and the second wiring insulating layer include different materials.

An electronic package and a manufacturing method thereof are provided, in which a cover is disposed on a carrier structure having an electronic element, and the electronic element is covered by the cover. A magnetic conductive member is arranged between the cover and the electronic element, and an air gap is formed between the magnetic conductive member and the cover to enhance the shielding effect of the electronic package.

A semiconductor package includes a semiconductor chip including a semiconductor substrate having an active layer, ground chip pads on the semiconductor substrate, and signal chip pads on the semiconductor substrate and a package substrate supporting the semiconductor chip, the package substrate including a substrate insulating layer, a plurality of signal line patterns extending in the substrate insulating layer and electrically connected to the signal chip pads, and a plurality of ground line patterns extending in the substrate insulating layer at a same level as a level of the plurality of signal line patterns and electrically connected to the ground chip pads. At least one of the plurality of ground line patterns extends between the plurality of signal line patterns.

A package structure is provided. The package structure includes a first interconnect structure formed over a first substrate. The package structure also includes a second interconnect structure formed below a second substrate. The package structure further includes a bonding structure between the first interconnect structure and the second interconnect structure. In addition, the bonding structure includes a first intermetallic compound (IMC) and a second intermetallic compound (IMC). The bonding structure also includes an underfill layer surrounding the bonding structure. A width of the first IMC is greater than a width of the second IMC, and the underfill layer covers a sidewall of the first IMC and a sidewall of the second IMC.

A board-level pad pattern includes a corner pad unit disposed at a corner of a surface mount region for mounting a multi-row QFN package. The corner pad unit includes at least a reversed-L-shaped pad. The reversed-L-shaped pad is disposed in proximity to an apex of the corner of the surface mount region.

Implementations of an image sensor package may include an image sensor die including at least one bond pad thereon; a bond wire wirebonded to the at least one bond pad; and an optically transmissive lid coupled to the image sensor die with an optically opaque film adhesive over the at least one bond pad. The bond wire may extend through the optically opaque film adhesive to the at least one bond pad.

A power module includes: a first substrate having an outer surface and an inner surface; a semiconductor die coupled to the inner surface of the first substrate; a second substrate having an outer surface and an inner surface, the semiconductor die being coupled to the inner surface of the second substrate; and a first electrically conductive spacer coupled to inner surface of the first substrate and to the inner surface of the second substrate.