An electronic apparatus includes: an electronic module; and a flexible substrate electrically connected to the electronic module. The flexible substrate includes: a base film; a plurality of first contact pads arranged at one end on the base film in a first direction, and electrically connected to the electronic module; a plurality of second contact pads arranged at an other end on the base film in the first direction; a plurality of first wires arranged on the base film, and each electrically connecting one of the first contact pads and one of the second contact pads together; and a plurality of third contact pads arranged on the base film, each of the third contact pads being positioned along the first direction between one of the first contact pads and one of the second contact pads, and being electrically connected to one of the first wires.

A stretchable wiring board that includes a stretchable substrate having a first main surface with a first region, a second region adjacent the first region, and a third region adjacent the second region; a first stretchable wiring line on the first main surface and extending over the first region; an insulating layer extending over the first region and the second region; and a second stretchable wiring line extending over the first region, the second region, and the third region. When a thickness of the insulating layer is defined as Z2, and when a minimum value of a length of the second region in an extending direction of the second stretchable wiring line in a plan view of the stretchable wiring board is defined as Y, Y>Z2.

A circuit board includes an insulating layer that is layered on a substrate; and a dam member in a form of a rectangular frame that is formed on the insulating layer. A corner part of the dam member includes a slope that slopes down from an inner wall surface to a surface of the insulating layer in a lower part that makes contact with the surface of the insulating layer; and a perpendicular part that is perpendicular to the surface of the insulating layer in an upper part separated from the surface of the insulating layer.

The present disclosure relates to an electronic unit including at least one component and a printed circuit board, wherein the at least one component has at least one terminal, wherein the printed circuit board has at least one first contact surface and at least one second contact surface, wherein the at least one first contact surface and the at least one second contact surface are spaced apart from one another, wherein the at least one terminal is joined to the at least two contact surfaces by at least one solder joint. The present disclosure further relates to a method for testing at least one state of an electronic unit.

A light sensing module and a display apparatus are provided. The light sensing module includes a circuit board and a light sensing device, wherein the circuit board includes a mounting region and a device region surrounding the mounting region, an encapsulation layer is disposed on the device region, and a light sensing device, a light sensing hole and a barrier structure are provided on the mounting region, a vertical projection of the light sensing device on the mounting region at least partially overlaps with a vertical projection of the light sensing hole on the mounting region, and the barrier structure is disposed around the periphery of the light sensing hole, and separates the encapsulation layer from the light sensing hole.

A stretchable wiring board that includes a stretchable substrate having a first main surface with a first region, a second region adjacent the first region, and a third region adjacent the second region; a first stretchable wiring line on the first main surface and extending over the first region; an insulating layer extending over the first region and the second region; and a second stretchable wiring line extending over the first region, the second region, and the third region. When a thickness of the insulating layer is defined as Z2, and when a minimum value of a length of the second region in an extending direction of the second stretchable wiring line in a plan view of the stretchable wiring board is defined as Y, Y>Z2.

A printed circuit board according to various embodiments of the present disclosure can include a first substrate layer, a dielectric layer stacked below the first substrate layer, and a second substrate layer stacked below the dielectric layer. The second substrate layer can include: a power line; a ground part disposed to have an isolated area along the power line; and a ground line which extends from the ground part so as to be disposed in the isolated area, and which separates the isolated area into a first area and a second area so as to generate electromagnetic waves for canceling the electromagnetic waves generated by a current flowing through the power line. Other embodiments are also possible.

A light sensing module and a display apparatus are provided. The light sensing module includes a circuit board and a light sensing device, wherein the circuit board includes a mounting region and a device region surrounding the mounting region, an encapsulation layer is disposed on the device region, and a light sensing device, a light sensing hole and a barrier structure are provided on the mounting region, a vertical projection of the light sensing device on the mounting region at least partially overlaps with a vertical projection of the light sensing hole on the mounting region, and the barrier structure is disposed around the periphery of the light sensing hole, and separates the encapsulation layer from the light sensing hole.

A flexible circuit board includes an electrically insulating cover layer, at least one electrical component arranged on the upper side of the cover layer with electrical contacts, a conducting track structure arranged on the underside of the cover layer and with contact regions, wherein the electrical contacts are each electrically conductively connected to one of the contact regions through one of a plurality of openings in the cover layer, a heat sink which is thermally conductively connected to each electrical component through the cover layer, and a layer with high conductivity. To create an improved cooling capacity of the electrical component, the heat arising in the electrical components is first dissipated effectively within the conducting paths of the conducting path structure and then dissipated out of the conducting paths directly into the heat sink by the layer with high heat conductivity.

A printed circuit board includes an electronic component including a first base and a plurality of first lands, the first base including a first main surface, the plurality of first lands being disposed around a first portion of the first main surface and spaced from each other, a printed wiring board including a second base and a plurality of second lands, the second base including a second main surface, the plurality of second lands being disposed around a second portion of the second main surface and spaced from each other, bonding portions configured to bond the first lands and the second lands, a resin portion configured to cover the bonding portions and including cured thermosetting resin, and a member having a property to repel uncured thermosetting resin and disposed on one of the first portion and the second portion.