Provided are package-on-package (POP)-type semiconductor packages including a lower package having a first size and including a lower package substrate in which a lower semiconductor chip is, an upper redistribution structure on the lower package substrate and the lower semiconductor chip, and alignment marks. The packages may also include an upper package having a second size smaller than the first size and including an upper package substrate and an upper semiconductor chip. The upper package substrate may be mounted on the upper redistribution structure of the lower package and electrically connected to the lower package, and the upper semiconductor chip may be on the upper package substrate. The alignment marks may be used for identifying the upper package, and the alignment marks may be below and near outer boundaries of the upper package on the lower package.

Provided are a heat sink capable of suppressing overcooling of an electronic component which should not be overcooled and highly efficiently cooling only an electronic component which should be cooled, and a circuit device including the same. A heat sink includes a pipe and a cooling block. At least one projection is formed in the cooling block. The pipe is in contact with the projection. The pipe is arranged with a spacing from a portion of the cooling block other than the projection.

Provided are a heat sink capable of suppressing overcooling of an electronic component which should not be overcooled and highly efficiently cooling only an electronic component which should be cooled, and a circuit device including the same. A heat sink includes a pipe and a cooling block. At least one projection is formed in the cooling block. The pipe is in contact with the projection. The pipe is arranged with a spacing from a portion of the cooling block other than the projection.

A package substrate according to an embodiment includes a first substrate; and a first chip mounted on the first substrate; wherein the first substrate includes: a first insulating layer including a first region overlapping the first chip in a vertical direction and a second region other than the first region; and a circuit pattern disposed on the first region and the second region of the first insulating layer; wherein the circuit pattern includes: a pad portion including a first portion disposed on an upper surface of the second region of the first insulating layer, a second portion buried in the first region of the first insulating layer, and a third portion including at least a part buried in the first region of the first insulating layer and connecting between the first portion and the second portion; wherein at least a part of the first chip is disposed in the first region of the first insulating layer; wherein the first region of the first insulating layer surrounds a lower surface and a side surface of the first chip, and wherein the first region and the second region of the first insulating layer are a single insulating layer.

A package substrate according to an embodiment includes a first substrate; and a first chip mounted on the first substrate; wherein the first substrate includes: a first insulating layer including a first region overlapping the first chip in a vertical direction and a second region other than the first region; and a circuit pattern disposed on the first region and the second region of the first insulating layer; wherein the circuit pattern includes: a pad portion including a first portion disposed on an upper surface of the second region of the first insulating layer, a second portion buried in the first region of the first insulating layer, and a third portion including at least a part buried in the first region of the first insulating layer and connecting between the first portion and the second portion; wherein at least a part of the first chip is disposed in the first region of the first insulating layer; wherein the first region of the first insulating layer surrounds a lower surface and a side surface of the first chip, and wherein the first region and the second region of the first insulating layer are a single insulating layer.

The disclosure provides a semiconductor package substrate made from non-metallic material having a first top surface, a second bottom surface opposite from the first surface, and at least one side surface, the substrate includes at least two pads positioned on the first surface and suitable for receiving an electronic element, an encapsulant material layer covering the first surface, at least two terminals positioned on the second surface and electrically connected to the pads, and a portion of at least one of the two terminals is exposed at the at least one side surface and structured as a wettable flank.

An integrated circuit chip carrier includes a wall surrounding a cavity. The wall includes one or more levels where each level is formed from a layer of a resin around a block. The block is made of a material different from the resin. The block is removed to open the cavity.

An integrated circuit chip carrier includes a wall surrounding a cavity. The wall includes one or more levels where each level is formed from a layer of a resin around a block. The block is made of a material different from the resin. The block is removed to open the cavity.

An electronic component module includes a plurality of components including a terminal and placed along a plane, a frame substrate supporting at least some components among the plurality of components, a sealing resin portion sealing the plurality of components and the frame substrate, and a shield layer covering an outer surface of the sealing resin portion. The frame substrate includes an insulating layer, a ground layer, and a ground bump electrically connected to the ground layer, and also an opening supporting a portion other than solder bumps of bump components, and the ground layer of the frame substrate is exposed to a side surface of the frame substrate and is electrically connected to the shield layer. The terminal of the plurality of components and the ground bump are exposed while protruding from a plane of the sealing resin portion and are used as mounting terminals of the electronic component module.

The present invention relates to an electronic module. In particular, to an electronic module which includes one or more components embedded in an installation base. The electronic module can be a module like a circuit board, which includes several components, which are connected to each other electrically, through conducting structures manufactured in the module. The components can be passive components, microcircuits, semiconductor components, or other similar components. Components that are typically connected to a circuit board form one group of components. Another important group of components are components that are typically packaged for connection to a circuit board. The electronic modules to which the invention relates can, of course, also include other types of components.