A package that includes a substrate, a first integrated device coupled to the substrate, a first block device coupled to the substrate, a second encapsulation layer encapsulating the first integrated device and the first block device. The first block device includes a first electrical component, a second electrical component, a first encapsulation layer at least partially encapsulating the first electrical component and the second electrical component, and a first metal layer coupled to the first encapsulation layer.

A multi-layer coating on an outer surface of a substrate includes a first layer applied directly to the outer surface of the substrate. The first layer includes diamond-like carbon (DLC) configured to mitigate metal whisker formation. A second layer is applied on a top surface of the first layer. The second layer is a conformal coating that includes a second material configured to bind to the top surface of the first layer and fill any microfractures that may form in the first layer. Optionally, a third layer is applied on a top surface of the second layer and includes DLC configured to protect the second layer from oxidation and degradation.

A multi-layer coating on an outer surface of a substrate includes a first layer applied directly to the outer surface of the substrate. The first layer includes diamond-like carbon (DLC) configured to mitigate metal whisker formation. A second layer is applied on a top surface of the first layer. The second layer is a conformal coating that includes a second material configured to bind to the top surface of the first layer and fill any microfractures that may form in the first layer. Optionally, a third layer is applied on a top surface of the second layer and includes DLC configured to protect the second layer from oxidation and degradation.

A cap including a side wall portion having conductivity, a lid portion, a thin portion formed at least around the lid portion, and a beam portion supporting the lid portion is formed, an exposed component and a sealing component are mounted on a module substrate, the cap is mounted on the module substrate so as to surround an exposed component, the sealing component and the cap are sealed with a sealing resin, the lid portion is ground so as to reduce its thickness until the thin portion disappears, a shield layer is formed on an outer surface of the sealing resin and a side surface of the module substrate, a translucent adhesive sheet is attached on a top surface of the sealing resin, the beam portion is cut by laser through the adhesive sheet, and the adhesive sheet is peeled together with a lid portion.

A cap including a side wall portion having conductivity, a lid portion, a thin portion formed at least around the lid portion, and a beam portion supporting the lid portion is formed, an exposed component and a sealing component are mounted on a module substrate, the cap is mounted on the module substrate so as to surround an exposed component, the sealing component and the cap are sealed with a sealing resin, the lid portion is ground so as to reduce its thickness until the thin portion disappears, a shield layer is formed on an outer surface of the sealing resin and a side surface of the module substrate, a translucent adhesive sheet is attached on a top surface of the sealing resin, the beam portion is cut by laser through the adhesive sheet, and the adhesive sheet is peeled together with a lid portion.

A circuit board 1 including: a substrate; an electrode pad on a surface of the substrate; and a projecting electrode on the electrode pad, wherein the electrode pad on which the projecting electrode is disposed is larger than the projecting electrode when viewed from above, and a coating layer covers at least a portion of an outer periphery of the electrode pad on which the projecting electrode is disposed.

A power system includes a power module, an electronic load and a system board. The power module includes a first surface, a second surface, a switch and a plurality of conductive parts, wherein the switch is disposed on the first surface of the power module and the plurality of conductive parts are disposed on the second surface of the power module. The electronic load includes a plurality of conductive parts. The power module and the electronic load are disposed on two opposite sides of the system board, the power module delivers power to the electronic load through the system board, and gaps and networks of the plurality of conductive parts of the power module correspond to those of the plurality of conductive parts of the electronic load.

A transfer film includes a temporary support; and a photosensitive layer, in which the photosensitive layer includes a polymer A containing a constitutional unit represented by Formula A1, a constitutional unit derived from a monomer having an alicyclic structure, and a constitutional unit having a radically polymerizable group, a radically polymerizable compound, and a photopolymerization initiator, a content of the constitutional unit represented by Formula A1 is 10% by mass or more with respect to a total mass of the polymer A, a content of the constitutional unit derived from the monomer having the alicyclic structure is 15% by mass or more with respect to a total mass of the polymer A, and a glass transition temperature of a homopolymer of the monomer having the alicyclic structure is 120° C. or higher. ##STR00001##

A package circuit structure includes a multilayer circuit board, an electronic component, and an insulating layer. The multilayer circuit board includes a metal portion and an opening. The opening is extending from a first side of the multilayer circuit board toward the second side of the multilayer circuit board facing the first side. A bottom of the opening is sealed by the metal portion. The electronic component is received in the opening and adhered to the metal portion. The electronic component is electrically connected to the multilayer circuit board and encapsulated in the opening by the insulating layer. A method for manufacturing the package circuit structure is also provided.

A circuit board includes at least one circuit board unit sequentially stacked in a thickness direction of the circuit board, an insulating layer, an electromagnetic shielding layer, and a barrier layer. The circuit board unit includes a substrate layer, and two conductive layers respectively disposed on two opposite sides of the substrate layer in a thickness direction of the substrate layer, and each of the conductive layers includes a plurality of signal lines. The insulating layer is located on a side of an outermost conductive layer away from the substrate layer. The electromagnetic shielding layer is located on a side of the insulating layer away from the substrate layer. The barrier layer is located between the electromagnetic shielding layer and the outermost conductive layer. The barrier layer at least covers a plurality of signal lines in the outermost conductive layer.