Provided is a method for manufacturing a metal-layer-joined ceramic base material board, in which at least one scribe line is formed, on each of the front and back surfaces of a ceramic base material board, along dividing lines for dividing the ceramic base material board into a plurality of ceramic boards, a metal board covering at least a portion of the dividing lines is joined to each of the front and back surface of the ceramic base material board, the metal boards are etched along the dividing lines to form a plurality of metal layers, and the plurality of metal layers are joined to each of the front and back surfaces of the ceramic base material board.

A wiring substrate includes a substrate with a first principal face and a second principal face. The first principal face has a first corner and first and second sides. The second principal face has a second corner corresponding to the first corner, and a third and a fourth side, respectively corresponding to the first and second sides. The substrate further comprising a first side surface connected to the first side, a second side surface connected to the second side, a third side surface connected to the third side, a fourth side surface connected to the fourth side, a first fracture part located between the first and third side surfaces to connect them, and a second fracture part located between the second and the fourth side surfaces to connect them. In the substrate's thickness direction, the length of the second side surface is smaller than the first side surface.

A package comprises a body, and an electrically conductive pattern supported by said body. An interface portion is configured to receive a module to a removable attachment with the package. The electrically conductive pattern comprises, at least partly within said interface portion, a wireless coupling pattern that constitutes one half of a wireless coupling arrangement.

Disclosed is a printed circuit board having a holder for a battery, wherein the holder includes first and second contacts connected to conductive traces of the printed circuit board and wherein the holder is embodied such that a battery inserted into the holder is clamped so that poles of the battery on opposite end faces of the battery make electrical contact with the first and second contacts. The battery lies clamped between the contacts on a support region of the printed circuit board and is oriented with reference to the printed circuit board so that an imaginary line connecting the poles of the battery is essentially in parallel with the plane of the support region. The printed circuit board has connected with the support region a rigid first section, which is essentially perpendicular to the support region, and wherein the first contact is arranged on the first section.

The present invention provides a package structure with an inductor and a manufacturing method thereof, the inductor and the interconnection component are used as n second package module, and stacked with other components such as the first package module to form a stack-like package structure. The first package module is provided with other electronic elements. Then the first and second package modules can be synchronously subjected to package manufacturing, which improves the production efficiency. Additionally, the soldering balls with different heights are formed on the first faces of the interconnecting structural component and the inductive device by adjusting the consumption of soldering paste, which make the second faces of the inductor and the interconnection component are coplanar, then inductor with different heights can form a flat interconnecting plane, which makes the sequential process such as pasting and mounting can be conveniently performed. The process is simplified, and the reliability of the package structure is improved.

The present disclosure relates to a core-substrate, a substrate, a use of the substrate, and a semiconductor device comprising the same, wherein the core-substrate is a core-substrate applied to the manufacture of a semiconductor packaging substrate, and the core-substrate distinguished into a product area where a product utilized as a substrate of an individual semiconductor is disposed; and a blank area excepting for the product area, wherein the blank area comprises a protective area disposed between the product area and the substrate, and the protective area comprises a concave or a via. The embodiment can substantially suppress the occurrence of damage in the product area utilized as a substrate for semiconductor packaging, even though a core-substrate which may be easily broken by external impact.

A flexible light emitting diode (LED) sheet operable to (i) produce light, (ii) enhance an amount of light and/or connected light-emitting diodes and/or sheets that can be daisy chained together, and (iii) lower wattage consumption. Lighting options include single color, color changing lighting, and pixel lighting.

A multi-piece wiring substrate includes a matrix substrate provided with dividing grooves arranged along boundaries of wiring substrate regions in a first principal face and a second principal face, the dividing grooves including first dividing grooves, second dividing grooves, third dividing grooves, and fourth dividing grooves, depths of the first dividing grooves and depths of the second dividing grooves being set to be greater than depths of the third dividing grooves and depths of the fourth dividing grooves, first curved parts being provided so that the depths of the third dividing grooves gradually increase as going toward respective corners of the wiring substrate regions, and second curved parts being provided so that the depths of the fourth dividing grooves gradually increase as going toward the respective corners of the wiring substrate regions.

To provide a protrusion drop structure and others in which when a load applied to an operating button in a back direction is smaller than a predetermined load, the bending of a printed circuit board is made sufficiently small so as not to give a feeling of strangeness when a user depresses the operating button, and when a load applied to the operating button in the back direction reaches the predetermined load, a projecting height of the operating button from a surface of a casing is reduced to less than or equal to a predetermined height. The protrusion drop structure of the present invention includes a casing; an operating button capable of being depressed, the operating button having one end that projects outside the casing and having other end disposed inside the casing; a printed circuit board supported inside the casing and having a rupturing portion that is ruptured at an area facing the other end of the operating button when a first depression load or more is applied from a one-end side to an other-end side of the operating button; and a board supporting member that is fixed to the casing and supports the printed circuit board from a back side of a surface of the rupturing portion facing the other end of the operating button, the fixation of the board supporting member to the casing being released when a second depression load or more is applied to the rupturing portion from a surface side facing the other end of the operating button to the back side.

A structure of a circuitry substrate for securing an area from tampering is disclosed. The structure includes a circuitry substrate with at least one of a top tamper enclosure and a bottom tamper enclosure covering a component in a protected area of the circuitry substrate. The top and bottom tamper enclosures are adhesively bonded to a surface of the circuitry substrate, and a tear initiation site is added to a side of the perimeter of circuitry substrate bordering the protected area that includes at least one tamper enclosure, such that the tear initiation site is located and configured to enable propagation of a delamination of at least one internal layer of the circuitry substrate and a severing of a security circuit when a removal force is applied to the at least one of the top tamper enclosure and the bottom tamper enclosure.