An electronic component includes a first functional element including a pair of first connecting electrode portions formed on a first mounting surface, a pair of pillar electrodes connected to the corresponding first connecting electrode portions, a second functional element that includes a pair of second connecting electrode portions formed on a second mounting surface and that is arranged in a space defined by the first mounting surface of the first functional element and the pair of pillar electrodes, a pair of pad electrodes connected to the corresponding second connecting electrode portions, and a sealing resin that seals the pair of pillar electrodes, the pair of pad electrodes and the second functional element so as to expose the first lower surfaces of the pair of pillar electrodes and the second lower surfaces of the pair of pad electrodes.

A printed wiring board includes a laminate including first conductor pads on first surface side of the laminate and second conductor pads on second surface side of the laminate, and a solder resist layer formed on the first surface side of the laminate and having openings formed such that the openings are exposing the first conductor pads respectively. The laminate includes a resin insulating layer and has first surface on the first surface side and second surface on the second surface side on the opposite side with respect to the first surface of the laminate, and the second conductor pads are embedded in the second surface of the laminate such that the second conductor pads have surfaces exposed from the second surfaces of the laminate respectively and that the surfaces of the second conductor pads are protruding from the second surface of the laminate.

The present invention relates to an integrated circuit packaging, comprising: a plurality of electrical circuits using a first patterned conductive layer (103) formed by using a masking material (102); a second patterned conductive layer (105) having disposed on at least one side of the first patterned conductive layer (103); and a first dielectric layer (106) made from a laminating means, wherein the first patterned conductive layer (103) and the second patterned conductive layer (105) are disposed within the first dielectric layer (106), such that at least one side of the first dielectric layer (106) are located at the same plane with the first patterned conductive layer (103).

A circuit board with conductive wiring which is precisely shaped and sized includes a two-part conductive element, namely a first conductive wiring layer and a second conductive wiring layer, a first cover film and a second cover film. The first conductive wiring layer and the second conductive wiring layer are in direct contact to each other. A projection of the first conductive wiring layer and a projection of the second conductive wiring layer along a direction perpendicular to the circuit board overlap with each other. The first and the second cover films wrap the first and the second conductive wiring layers, respectively.

A wiring board includes: a wiring structure including: a first insulating layer; a first wiring layer formed on a bottom surface of the first insulating layer; and a protective insulating layer which covers the bottom surface of the first insulating layer and has a first opening; and a support base member bonded to the protective insulating layer with an adhesive layer and has a second opening. A diameter of the second opening at a position between the top surface and the bottom surface of the support base member in a thickness direction of the support base member is smaller than a diameter of the second opening at the top surface of the support base member and a diameter of the second opening at the bottom surface of the support base member, and smaller than a diameter of the first opening.

There is provided a copper foil provided with a carrier exhibiting a high peeling resistance against the developer in the photoresist developing process and achieving high stability of mechanical peel strength of the carrier. The copper foil provided with a carrier comprises a carrier; an interlayer disposed on the carrier, the interlayer having a first surface adjacent to the carrier and containing 1.0 atom % or more of at least one metal selected from the group consisting of Ti, Cr, Mo, Mn, W and Ni and a second surface remote from the carrier and containing 30 atom % or more of Cu; a release layer disposed on the interlayer; and an extremely-thin copper layer disposed on the release layer.

A wiring transfer plate for forming wiring to be transferred to another component includes: a base; a plating base material layer formed as a release layer on the base; an insulating layer covering the base with an opening above the plating base material layer; and a projecting structure formed on the insulating layer for forming, in an insulating layer of a component to which the wiring is to be transferred, a via hole for a via electrode.

Embodiments are generally directed to module installation on printed circuit boards with embedded trace technology. An embodiment of a printed circuit board includes one or more layers including a top layer; multiple embedded traces that are contained in an area of a surface of a first layer of the one or more layers of the printed circuit board; and a first module, the first module being installed on the plurality of printed traces in the area.

Provided herein is a carrier-attached copper foil having desirable fine circuit formability. The carrier-attached copper foil includes a carrier, an interlayer, and an ultrathin copper layer in this order. The maximum ridge height Sp as measured with a laser microscope according to ISO 25178 on the surface of the carrier-attached copper foil on the side of the ultrathin copper layer is 0.193 to 3.082 m.

There is provided a copper foil provided with a carrier exhibiting a high peeling resistance against the developer in the photoresist developing process and achieving high stability of mechanical peel strength of the carrier. The copper foil provided with a carrier comprises a carrier; an interlayer disposed on the carrier, the interlayer having a first surface adjacent to the carrier and containing 1.0 atom % or more of at least one metal selected from the group consisting of Ti, Cr, Mo, Mn, W and Ni and a second surface remote from the carrier and containing 30 atom % or more of Cu; a release layer disposed on the interlayer; and an extremely-thin copper layer disposed on the release layer.