A layout structure of flexible circuit board includes a flexible substrate, a chip and a circuit layer. A chip mounting area and a circuit area are defined on a top surface of the flexible substrate. The chip is mounted on the chip mounting area, a space exists between a first bump and a second bump of the chip, and there are no additional bumps between the first and second bumps. A first inner lead, a second inner lead, a first dummy lead and a second dummy lead of the circuit layer are located on the chip mounting area. The first and second inner leads are electrically connected to the first and second bumps respectively. The first dummy lead is connected to the first inner lead and adjacent to the first bump, and the second dummy lead is connected to the second inner lead and adjacent to the second bump.

A housing of a conformal wearable battery (CWB) encloses a plurality of battery cells arranged in a grid-like pattern and electrically connected to a printed circuit board (PCB). The PCB includes an electrical connection pad that is electrically coupled to a positive terminal of a battery cell of the plurality of battery cells and a positive conductive region receiving electrical energy from one or more of the plurality of battery cells. A redundant trace fuse circuit is formed on the PCB to facilitate electrical connection of the electrical connection pad and the positive conductive region. The redundant trace fuse circuit includes a first fusible link for electrically connecting the first electrical connection pad to the positive conductive region and a second fusible link that is selectively enabled to electrically connect the first electrical connection pad to the positive conductive region when the first fusible link is inoperative.

A printed circuit board assembly and a terminal are provided. The printed circuit board assembly includes: a first printed circuit board and a second printed circuit board, where the second printed circuit board is electrically connected to the first printed circuit board through at least four solder joints; the at least four solder joints include a first solder joint, a second solder joint, a third solder joint, and a fourth solder joint, the first solder joint communicates with the second solder joint, the third solder joint communicates with the fourth solder joint, and at least one solder joint and/or at least one printed circuit board cavity is provided between the second solder joint and the third solder joint; and the printed circuit board cavity is a recess structure that is recessed inwards from a surface of the printed circuit board.

A printed circuit board (PCB) includes a first set of pins on a first side of the PCB, a second set of pins on a second side of the PCB, and one or more vias connecting one or more pins from the first set of pins to one or more pins from the second set of pins.

In printed wiring that is formed, on a surface of a base member, by a film of cured electrically conductive ink and that includes: a wavy line; a first wiring element located at one side of both sides sandwiching the wavy line in a width direction; and a second wiring element located at the other side of the both sides and adjacently to the wavy line; a surplus wavy line is provided which is another wavy line, which extends along the wavy line adjacently to the wavy line between the wavy line and the first wiring element, and which is connected to the wavy line to have the same potential.

A flexible display panel and a display device are provided. The flexible display panel includes a bent portion. The bent portion includes a substrate layer group and a conductive wire group. The conductive wire group is located on the substrate layer group. The conductive wire group includes a plurality of conductive wires in a curved shape. At least two of the plurality of conductive wires cross and surround at least one closed region. The at least one closed region is provided at least corresponding to a bent region of the bent portion.

A method may include receiving a first and a second complementary signal to provide differential signaling. The method may further include providing a first conductor trace to transport the first complementary signal; providing a second conductor trace to transport the second complementary signal, the second conductor trace immediately adjacent to the first conductor trace; providing a third conductor trace to transport the first complementary signal, the third conductor trace immediately adjacent to the second conductor trace; and providing a fourth conductor trace to transport the second complementary signal, the fourth conductor trace immediately adjacent to the third conductor trace.

A display panel and a display device are provided. The display panel includes: a first substrate including a display area and a wiring area, wherein a plurality of active switches and a plurality of pixel units are disposed in the display area of the first substrate, and the pixel units are respectively coupled to the active switches; a second substrate disposed opposite the first substrate; a first drive line portion disposed in the wiring area of the first substrate; a second drive line portion disposed in the wiring area of the first substrate; a flexible circuit board including a first wire; and a first interface unit respectively connecting the first wire to the first drive line portion and the second drive line portion. The flexible circuit board comprises a second wire, and the second wire is connected to the first wire in parallel to form parallel circuits.

A display according to various embodiments of the present invention may comprise: a touchscreen panel; a display panel disposed under the touchscreen panel and including a first flexible substrate; a drive circuit for driving the touchscreen panel or the display panel; and a second flexible substrate extending outward from the touchscreen panel in a partial layer of the touchscreen panel, wherein the second flexible substrate comprises: a drive circuit area in which the drive circuit is disposed; one or more first wirings connected to the drive circuit and the touchscreen panel; and a bending area which is bent with respect to the touchscreen panel. Various other embodiments may also be possible.

A flexible circuit package. The circuit package includes a termination point on a flexible base substrate. The termination point is connected with an interface by conductive material on the base substrate. The conductive material extends across the surface area of the base substrate in multiple individual connections, which are in communication with each other and separated by voids in the conductive material for mitigating communication failure between the termination point and the interface during or following flexion, stretching, compression or other deformation of the base substrate and the circuit package. The termination point may include an input module such as a sensor, switch or other input. The termination point may include an output module such as a light, vibrator or other output. The interface may include an output interface for receiving data or an input interface for sending a command or other signal.