Workability in a manufacturing process of a semiconductor device is improved. A terminal member is the terminal member joined to an electrode of a semiconductor element, and includes a conductor portion, a first annular projecting portion, and an annular recess. The conductor portion has a first main surface and a second main surface located on a side opposite to the first main surface. The first annular projecting portion is provided on the first main surface of the conductor portion. The annular recess is provided on the second main surface and is disposed at a position overlapping with the first annular projecting portion. By pressing a joining member against the first main surface of the terminal member, the first annular projecting portion can be embedded in the joining member.

A conductive element such as an antenna, for use in electronic devices, including mobile devices such as cellular phones, smartphones, personal digital assistants (PDAs), laptops, and wireless tablets, and methods of, and apparatus for, forming the same. In one exemplary aspect, the present disclosure relates to a conductive antenna formed using deposition of conductive fluids as well as the method and equipment for forming the same. In one embodiment, a complex (3D) conductive trace is formed using two or more different print technologies via creation of different domains within the conductive trace pattern.

A multilayer wiring board includes a main wiring board which mounts a semiconductor component on a surface of the main wiring board, and a wiring structure body which is mounted to the main wiring board and is formed to be electrically connected to the semiconductor component. The wiring structure body includes conductive pads formed on a first side of the wiring structure body, a heat radiation component formed on a second side of the wiring structure body on the opposite side with respect to the first side, an insulation layer positioned between the conductive pads and the heat radiation component, and via conductors formed in the insulation layer such that each of the via conductors has a diameter which increases from the first side toward the second side of the wiring structure body.

An electrical apparatus has an external conductive housing. A printed circuit board is provided (separate to a main circuit board of the apparatus) within a PCB housing. The printed circuit board is mechanically and electrically connected to the external housing and has an arc gap between a first contact which connects electrically to the external housing and a second contact which connects electrically to a power supply terminal. Thus, a dedicated circuit is used to perform a discharge function so that the housing and main circuit board do not need to be redesigned.

Provided is a process of making a polyphenylene oxide prepolymer, comprising a step of reacting a reactive cycloolefin and a vinyl-containing polyphenylene oxide in the presence of a ruthenium catalyst. The reactive cycloolefin may be selected from dicyclopentadiene monomer, dicyclopentadiene oligomer, dicyclopentadiene polymer, norbornene monomer, norbornene oligomer, norbornene polymer, and a combination thereof; the vinyl-containing polyphenylene oxide may be selected from divinylbenzyl polyphenylene oxide resin, vinylbenzyl-modified polyphenylene oxide resin, methacrylic polyphenylene oxide resin, and a combination thereof; the ruthenium catalyst may be a Grubbs catalyst. Also provided are a polyphenylene oxide prepolymer made by the process, a resin composition containing the polyphenylene oxide prepolymer, and a product made from the resin composition.

The invention relates to a stretched polymer film made of a polyamide composition comprising a semi-crystalline semi-aromatic polyamide (PPA), wherein the PPA consists of repeat units derived from aromatic dicarboxylic acid comprising at least 80 mole % of terephthalic acid, relative to the total amount of aromatic dicarboxylic acid; and diamine comprising at least 5 mole % 1,4-butanediamine and at least 5 mole % 1,6-hexanediamine, relative to the total amount of diamine, the combined amount of 1,4-butanediamine and 1,6-hexanediamine being at least 60 mole % relative to the total amount of diamine; and 0-2 mole % of other monomeric units, relative to the total amount of aromatic dicarboxylic acid, diamine and other monomeric units. The invention further relates to a process for preparing the polyamide film by melt extrusion and stretching of the film.

A flexible display includes a flexible substrate, a metal material coupled to the flexible substrate, and at least one electromagnet coupled to the flexible substrate. The electromagnet generates a force to attract the metal material when the flexible substrate changes from a first state to a second state. The force assists in holding the flexible substrate in the second state, which may be a rolled state, folded state, or another changed state. The flexible substrate includes a display area corresponding to a plurality of pixels for generating an image.

A foldable display device includes a flexible display panel and a retainer. The flexible display panel includes a first non-folding area, a second non-folding area, and a first folding area between the first and second non-folding areas. The retainer includes at least one first electromagnetic region in the second non-folding area and at least one first magnetic region in the first non-folding area. The first and second non-folding areas face each other when the flexible display panel is in a first folded state in the first folding area. The first folded state is maintained by an electromagnetic force generated between the at least one first electromagnetic region and the at least one first magnetic region.

An electrical board-to-board connector including a flexible cable assembly having a low profile or dimensionally reduced configuration. The connector body of a cable assembly may be widened to provide the structural rigidity sufficient to support an array of solder lead connections. Other support elements may be omitted from the cable assembly, which results in a reduced height dimension. The flexible cable assembly may also include a cowling used to retain the cable assembly against a circuit board. The cowling may also be configured to reduce the dimensions or dimensional footprint of the connection.

A circuit substrate includes a core substrate having a cavity, a metal block accommodated in the cavity of the core substrate, a first build-up layer including an insulating resin layer and laminated on a first surface of the core substrate such that the insulating resin layer is covering a first surface of the metal block in the cavity, and a second build-up layer including an insulating resin layer and laminated on a second surface of the core substrate such that the insulating resin layer is covering a second surface of the metal block in the cavity. The second build-up layer includes via conductors connected to the second surface of the metal block and common lands connecting the via conductors in parallel.