A flexible printed circuit board includes: a base material including a principal face; at least one first wiring pattern disposed on the principal face of the base material and extending along a first direction; and a first member and a second member disposed on the first wiring pattern so as to be spaced from each other in the first direction. In the first direction, the first member and the second member divide the flexible printed circuit board into: a first region located opposite to the second member with respect to the first member in the first direction, a second region located between the first member and the second member, a third region located opposite to the first member with respect to the second member, a fourth region in which the first member is disposed, and a fifth region in which the second member is disposed.

Disclosed is a wiring board including: an insulating substrate; a plurality of connection terminals arranged on the insulating substrate; and a plurality of non-conductive protruding parts respectively arranged on areas of the insulating substrate except areas on which the plurality of connection terminals are arranged. The non-conductive protruding parts has a height greater than that of the connection terminals.

A method and structure are provided for implementing enhanced reworkable strain relief packaging for electronic component interconnects. A plurality of custom strain relief pads is provided with a component footprint wiring layout on a component carrier or a component. The custom strain relief pads are disposed at component body perimeter locations. A solder mask is applied around these pad locations to provide a constrained area for a fusible surface coating. A fusible surface coating material is applied in the to the custom strain relief pads in the constrained area and then soldering of components is performed. Then a structural adhesive material is applied to the custom strain relief pad locations.

A display device includes a display panel, a functional unit, a first flexible substrate, a display driving component, and a second flexible substrate. The display panel includes a first substrate and a second substrate. The second substrate includes a portion overlapping the first substrate and a non-overlapping portion not overlapping the first substrate. The first flexible substrate is connected to the non-overlapping portion. The first flexible substrate includes an insulator base with flexibility and an insulating coating portion disposed between the display driving component and the second flexible substrate. The display driving component is mounted on the non-overlapping portion to process a signal from the first flexible substrate and to supply the processed signal to the display panel. The second flexible substrate is connected to the first substrate to transmit a signal for driving the functional unit. The second flexible substrate is disposed to overlap the non-overlapping portion.

A component-embedded substrate includes: a buildup layer including an insulating resin layer and a conductor layer; a cavity that is formed in the buildup layer; an electronic component that is mounted on a bottom face of the cavity through an adhesive layer; a pedestal that is disposed on the bottom face of the cavity so as to be opposed to four corners of the electronic component; and a filling resin layer that is filled into the cavity to cover the electronic component and the pedestal.

A conformal coating control method includes arranging at least one conformal control surface feature on a surface of a printed circuit board proximate perimeter pads of an integrated circuit. The method also includes soldering, to the printed circuit board, the integrated circuit. The method also includes applying a conformal coating material to the printed circuit board, wherein the conformal coating material is at least partially restricted from flowing between the integrated circuit and the printed circuit board by solder flux residue accumulated proximate the conformal control surface feature.

A method of manufacturing a package unit, comprising: preparing a circuit board having a first region, a second region surrounding the first region, and a third region between the first and the second region; preparing a mold having a frame-shaped protruding portion surrounding a first cavity, the frame-shaped protruding portion partitioning the first cavity and a second cavity surrounding the first cavity; arranging the circuit board and the mold such that the first region of the circuit board faces the first cavity, the second region of the circuit board faces the second cavity, and a gap which communicates the first cavity and the second cavity with each other is formed between the frame-shaped protruding portion and the third region of the circuit board; and forming a frame-shaped resin member on top of the second region of the circuit board by pouring a resin into the second cavity.

A substrate that is stretchable; wiring positioned on a first surface side of the substrate, the wiring having a meandering shape section including peaks and valleys aligned along a first direction that is one of planar directions of the first surface of the substrate; and a stretching control mechanism that controls extension and contraction of the substrate. The substrate has a component region and a wiring region adjacent to the component region. The component region includes a component-fixing region overlapping an electronic component mounted on the wiring board when viewed along the normal direction of the first surface of the substrate and a component-surrounding region positioned around the component-fixing region. The stretching control mechanism is positioned in the component-surrounding region and at least includes a stretching control part that spreads to the border between the component-surrounding region and the component-fixing region.

A substrate that is stretchable and that at least has a wiring region; wiring at least positioned in the wiring region on a first surface side of the substrate, the wiring having a meandering shape section that includes peaks and valleys aligned along a first direction that is one of planar directions of the first surface of the substrate; and a stretching control mechanism that controls extension and contraction of the substrate. The stretching control mechanism at least includes stretching control parts that are positioned in the wiring region of the substrate and that are aligned along the first direction.

An electronic component mounting substrate 10A is configured of an electronic component 20, and a mounting substrate 10 mounting the electronic component 20 thereon, in which concave parts 24 are formed on a mounting surface 23 of the electronic component 20 opposite to the mounting substrate 10, a connection part 39 is exposed at the bottom of the concave part 24, and electronic component attachment parts 12 provided on the mounting substrate 10 are soldered to the connection parts 39 provided in the electronic component 20.