A method is for making an electronic device that includes a multilayer circuit board having a non-planar three-dimensional shape defining a membrane switch recess therein. The multilayer circuit board may include at least one liquid crystal polymer (LCP) layer, and at least one electrically conductive pattern layer thereon defining at least one membrane switch electrode adjacent the membrane switch recess to define a membrane switch. The electronic device may further include a compressible dielectric material filling the membrane switch recess. The electronic device may also include at least one spring member within the membrane switch recess.

A method of manufacture and an integrated functional multilayer structure, includes a substrate film formed or formable so as to exhibit a selected shape; and a number of functional, preferably including optical, mechanical, optoelectrical, electrical and/or specifically, electronic, elements, such as conductors, insulators, components and/or integrated circuits, provided upon the substrate film in the proximity of the shape; wherein the substrate film has further been provided with a structural tuning element, optionally including an elongated, circumferential or other selected shape, said structural tuning element being configured to locally control induced deformation, optionally including stretching, bending, compression and/or shearing, of the substrate film within said proximity of the shape.

A method for producing a panel with integrated conductor tracks and electronic components. The panel includes a panel body, wherein the panel body is in particular a sandwich structure, and a membrane. The membrane is connected to the panel body and has integrated conductor tracks and electronic components. At the beginning of the method, an operation for attaching the conductor tracks and the electronic components to the membrane is provided. The subsequent step includes an operation for connecting the membrane, fitted with the conductor tracks and the electronic components, to the panel body.

A method of producing a functional vehicle component includes fixing a leather sheet over a surface of a vehicle component, applying a flexible electronic circuit to an A-surface of the leather sheet, and arranging a pigmented coating over the circuit. The pigmented coating inhibits or prevents the circuit from being visible through the pigmented coating. The method may include attaching an electronic element, such as a light source, a sensor, a wireless transmitter, or a switch, to the circuit. When the circuit includes a light source, the pigmented coating inhibits or prevents the light source from being visible through the pigmented coating, but light emitted by the light source is visible through the pigmented coating.

A circuit board assembly includes a first circuit board and a second circuit board. The first circuit board includes a first contact pad and defines a stamped protrusion being correspondingly positioned relative to a position of the first contact pad, the first contact pad being outside the stamped protrusion. The second circuit board includes a second contact pad. The first contact pad on the stamping protrusion is in contact with the second contact pad to achieve electronic connections between the first circuit board and the second circuit board. A method for manufacturing the circuit board assembly is further disclosed.

A method is for making an electronic device that includes a multilayer circuit board having a non-planar three-dimensional shape defining a membrane switch recess therein. The multilayer circuit board may include at least one liquid crystal polymer (LCP) layer, and at least one electrically conductive pattern layer thereon defining at least one membrane switch electrode adjacent the membrane switch recess to define a membrane switch. The electronic may further include a compressible dielectric material filling the membrane switch recess. The electronic device may also include at least one spring member within the membrane switch recess.

A circuit board includes a main portion and at least one uneven portion. The main portion is obtained by stacking a plurality of base sheets made of a flexible material in a predetermined direction and subjecting the stacked base sheets to compression bonding. The at least one uneven portion is provided on one of the base sheets. The uneven portion includes a concave portion and a convex portion extending in a direction perpendicular or substantially perpendicular to the predetermined direction. The concave portion is sunken in the predetermined direction. The convex portion protrudes in an opposite direction to the predetermined direction.

A resin multilayer substrate includes a multilayer body including resin layers and adhesive layers that are laminated, via conductors in the resin layers, and bonding portions in the adhesive layers. The bonding portion is connected to the via conductor. One of the resin layer and the adhesive layer is a gas high-permeable layer having a higher gas permeability than the other one. The bonding portion includes an organic substance, or has a higher void content rate per unit plane sectional area than the via conductor. At least a portion of each of the bonding portions contacts the gas high-permeable layers.

The invention provides a printed circuit board assembly (1) comprising (i) an at least partly folded flexible printed circuit board (100), and (ii) an at least partly folded support (200), wherein:—the at least partly folded flexible printed circuit board (100) comprises a first PCB region (110) and a second PCB region (120), wherein at least part of the second PCB region (120) is configured folded over at least part of the first PCB region (110);—the at least partly folded support (200) is configured to support at least part of the at least partly folded flexible printed circuit board (100), wherein the at least partly folded support (200) comprises a first support region (210) and a second support region (220), wherein at least part of the second support region (220) is configured folded over at least part of the first support region (210), wherein at least part of the at least partly folded flexible printed circuit board (100) is configured between the first support region (210) and the second support region (220), and wherein the at least partly folded support (200) is configured to maintain the at least partly folded flexible printed circuit board (100) folded.

A substrate for mounting an electronic component includes a base material including insulating resin, a first conductor layer formed on first surface of the material, a second conductor layer formed on second surface of the material, and a metal block inserted into a hole penetrating through the first conductor, material and second conductor such that the metal block is fitted in the hole. The material has a bent portion in contact with the metal block in the hole such that the bent portion is bending toward the second conductor, the metal block has surface on first conductor side such that the surface has an outer peripheral portion having a curved-surface shape, and the hole has a first fitting inlet on the first conductor layer side and a second fitting inlet on second conductor side and that the metal block is positioned in contact with the second fitting inlet.