A method of manufacturing a printed board, the method comprising: a first step of preparing a laminate having a base member in which a plurality of layers of glass cloths and a plurality of resin layers are alternately laminated, a first metal layer attached to one surface of the base member, and a second metal layer attached an opposite surface of the base member; a second step of forming a protective layer removable with a predetermined solvent on each of the first metal layer and the second metal layer; and a third step of irradiating the laminate on which the protective layer is formed with a laser beam to thereby form a through-hole penetrating in a thickness direction of the laminate.

Disclosed is a microetching solution for copper, a replenishment solution therefor and a method for production of a wiring board. The microetching solution of the present invention consists of an aqueous solution containing a cupric ion, an organic acid, a halide ion, an amino group-containing compound having a molecular weight of 17 to 400 and a polymer. The polymer is a water-soluble polymer including a polyamine chain and/or a cationic group and having a weight average molecular weight of 1000 or more. When a concentration of the amino group-containing compound is A % by weight and a concentration of the polymer is B % by weight, a value of A/B of the microetching solution of the present invention is 50 to 6000. According to the present invention, an adhesion between copper and a resin or the like may be maintained even with a low etching amount.

A wiring substrate includes a first wiring structure and a second wiring structure. The first wiring structure includes a first insulating layer, which covers a first wiring layer, and a via wiring. A first through hole of the first insulating layer is filled with the via wiring. The second wiring structure includes a second wiring layer and a second insulating layer. The second wiring layer is formed on an upper surface of the first insulating layer and an upper end surface of the via wiring. The second wiring layer partially includes a roughened surface. The second insulating layer is stacked on the upper surface of the first insulating layer and covers the second wiring layer. The second wiring structure has a higher wiring density than the first wiring structure. The roughened surface of the second wiring layer has a smaller surface roughness than the first wiring layer.

To provide a power-module substrate and a manufacturing method thereof in which small voids are reduced at a bonded part and separation can be prevented. Bonding a metal plate of aluminum or aluminum alloy to at least one surface of a ceramic substrate by brazing, when a cross section of the metal plate is observed by a scanning electron microscope in a field of 3000 magnifications in a depth extent of 5 m from a bonded interface between the metal plate and the ceramic substrate in a width area of 200 m from a side edge of the metal plate, residual-continuous oxide existing continuously by 2 m or more along the bonded interface has total length of 70% or less with respect to a length of the field.

Provided is a copper foil for a printed wiring board including a roughened layer on at least one surface thereof. In the roughened layer, the average diameter D1 at the particle bottom being apart from the bottom of each particle by 10% of the particle length is 0.2 to 1.0 m, and the ratio L1/D1 of the particle length L1 to the average diameter D1 at the particle bottom is 15 or less. In the copper foil for printed wiring board, when a copper foil for printed wiring having a roughened layer is laminated to a resin and then the copper layer is removed by etching, the sum of areas of holes accounting for the resin roughened surface having unevenness is 20% or more. The present invention involves the development of a copper foil for a semiconductor package substrate that can avoid circuit erosion without causing deterioration in other properties of the copper foil. In particular, an object of the present invention is to provide a copper foil for a printed wiring board and a method of producing the copper foil, in which the adhesion strength between the copper foil and the resin can be enhanced by improvement of the roughened layer of the copper foil.

A method of manufacturing a wiring substrate according to the present invention includes a step of forming a wiring layer including connection terminals on a first insulating layer; a step of forming a second insulating layer on the wiring layer and on the first insulating layer; a step of forming electrically insulative dummy portions separated from the wiring layer on the first insulating layer through patterning of the second insulating layer; a step of forming a third insulating layer on the wiring layer, on the dummy portions, and on the first insulating layer; and a step of forming openings in the third insulating layer for exposing the connection terminals in such a manner that upper end portions of the connection terminals protrude from the third insulating layer, and lower end portions of the connection terminals are embedded in the third insulating layer.

A method for pretreating a copper surface for the subsequent formation of a firmly adhesive bond between the copper surface and a plastic material substrate. The method comprises bringing a copper surface into contact with: a) hydrogen peroxide; b) an acid; c) a nitrogen-containing, five-membered, heterocyclic compound; and d) a lactam, amide, or polyamide, connected at one or more of its nitrogen atoms with at least one residue of formula (I),

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wherein: n is an integer from 1 to 100; R.sub.1 is hydrogen or a hydrocarbon residue with 1 to 6 carbon atoms; R.sub.2 is hydrogen or a hydrocarbon residue with 1 to 6 carbon atoms; and each R.sub.1 and R.sub.2 in a (CHR.sub.1CHR.sub.2O) moiety is selected independently of each R.sub.1 and R.sub.2 in another (CHR.sub.1CHR.sub.2O) moiety.

A substrate includes a base layer, first and second circuit layers both coupled to the base layer, a third circuit layer, a fourth circuit layer and two solder resist layers. The first/second circuit layer defines a first/second opening. The third and fourth circuit layers are located at two sides of the first and second circuit layers. The solder resist layers cover outer faces of the third and fourth circuit layers. Each solder resist layer defines a window. The first opening is deviated from the second opening. The third and fourth circuit layers each have a portion exposed to the window to be a solder pad. The first circuit layer and the third circuit layer have a total thickness no more than that of the second circuit layer and the fourth circuit layer. A chip package with the substrate and a method for manufacturing the substrate are also provided.

A component carrier including: i) a stack with at least one electrically insulating layer structure and at least one electrically conductive layer structure; ii) a first metal trace comprising a rough surface; and iii) a second metal trace arranged adjacent to the first metal trace, comprising a smooth surface. The component carrier is configured to guide high-frequency and or high-speed signals through the second metal trace.

Provided is a copper foil for a printed wiring board including a roughened layer on at least one surface thereof. In the roughened layer, the average diameter D1 at the particle bottom being apart from the bottom of each particle by 10% of the particle length is 0.2 to 1.0 m, and the ratio L1/D1 of the particle length L1 to the average diameter D1 at the particle bottom is 15 or less. In the copper foil for printed wiring board, when a copper foil for printed wiring having a roughened layer is laminated to a resin and then the copper layer is removed by etching, the sum of areas of holes accounting for the resin roughened surface having unevenness is 20% or more. The present invention involves the development of a copper foil for a semiconductor package substrate that can avoid circuit erosion without causing deterioration in other properties of the copper foil. In particular, an object of the present invention is to provide a copper foil for a printed wiring board and a method of producing the copper foil, in which the adhesion strength between the copper foil and the resin can be enhanced by improvement of the roughened layer of the copper foil.