A printed wiring board includes a substrate, a contact member arranged in contact with the substrate, and a wear resistant member fixed at least in an area on the substrate that comes in contact with the contact member, the wear resistant member having a wear resistance higher than that of the substrate.

An information handling system includes an outer housing containing a processor configured to execute instructions to process information and a memory configured to store the information. The information handling system includes a plurality of light-emitting diodes (LEDs) and corresponding electrical conductors disposed along a length of the membrane. The information handling system includes a diffuser configured to diffuse light emitted by the plurality of LEDs to provide light having uniform intensity over a contiguous path along the outer housing.

An electronic device may include a chassis. The electronic device may include a first electronic component that may include a first substrate and a first interconnect. The electronic device may include a second electronic component that may include a second substrate and a second interconnect. The second substrate may be physically separated from the first substrate. An electrical trace may be coupled to the chassis of the electronic device. The electrical trace may be sized and shaped to interface with the first interconnect of the first electronic component. The electrical trace may be sized and shaped to interface with the second interconnect of the second electronic component. The first electronic component and the second electronic component may be in electrical communication through the electrical trace coupled to the chassis of the electronic device.

An electronic device includes a housing including a front plate, a rear plate facing away from the front plate, and a side member surrounding a space between the front plate and the rear plate and connecting one side of the front plate to one side of the rear plate, an antenna structure including at least part of the conductive portion, and a printed circuit board disposed in the space and including at least one processor. At least part of the side member is a conductive portion. The conductive portion includes a first conductive pattern, a second conductive pattern disposed at least partially coupled to the first conductive pattern, and a third conductive pattern disposed at least partially coupled to the first conductive pattern and spaced apart from the second conductive pattern. The antenna structure includes a first feeding part electrically connected to a first location of the first conductive pattern, a second feeding part electrically connected to a second location of the first conductive pattern, wherein the second location is closer to the third conductive pattern than the first location, a first ground part electrically connected to a third location between the first location and the second location of the first conductive pattern, a second ground part electrically connected to a fourth location between the second location and the third location of the first conductive pattern, a switch electrically connected to a fifth location between the first location and the third location of the first conductive pattern, a third ground part electrically connected to a sixth location of the second conductive pattern, and a fourth ground part electrically connected to a seventh location of the third conductive pattern.

Methods and systems for creating a device having a switch trace are disclosed. The systems and methods described herein may include a device that has a chassis, the chassis having a top and a bottom, at least one antenna affixed to the top of the chassis, a first laser direct structuring-fabricated (LDS) trace, a second LDS trace, and a button, the button connected to the first LDS trace and the top of the chassis, wherein the button is configured to contact the second LDS trace when the button is depressed and complete a circuit between the first LDS trace and the second LDS trace upon contact.

Disclosed is a portable communication device including a housing; a first PCB; a wireless communication circuitry disposed on the first PCB; and a second PCB having a plurality of layers including a first PCB portion; a second PCB portion extended from the first PCB portion and more flexible than the first PCB portion; a third PCB portion extended from the second PCB portion and less flexible than the second PCB portion; a fourth PCB portion extended from the third PCB portion and more flexible than the third PCB portion; and a plurality of lines formed at a same layer of the plurality of layers as extended from the second PCB portion through the third PCB portion to the fourth PCB portion, the plurality of lines including a first ground line and a second ground line, and a first signal line between the first and second ground lines.

The present invention relates to a gap supporter for a printed circuit board, and a package including a gap supporter for a printed circuit board and an insulation sheet coupled thereto. A gap supporter for a printed circuit board includes a fixed body part which has a metal thin-film formed on the surface of the lower end thereof, and is fixed to one surface of the printed circuit board by soldering of the metal thin-film; a clamping groove formed in a groove shape on the fixed body part, and having an insulation sheet inserted and clamped thereto to protect an element on one surface of the printed circuit board; and an anti-separation part formed on the other end of the fixed body part so as to be defined by the clamping groove, so as to fix the insulation sheet and prevent the insulation sheet from being separated.

The present invention relates to a gap supporter for a printed circuit board, and a package including a gap supporter for a printed circuit board and an insulation sheet coupled thereto. A gap supporter for a printed circuit board includes a fixed body part which has a metal thin-film formed on the surface of the lower end thereof, and is fixed to one surface of the printed circuit board by soldering of the metal thin-film; a clamping groove formed in a groove shape on the fixed body part, and having an insulation sheet inserted and clamped thereto to protect an element on one surface of the printed circuit board; and an anti-separation part formed on the other end of the fixed body part so as to be defined by the clamping groove, so as to fix the insulation sheet and prevent the insulation sheet from being separated.

In an embodiment, an electronic device may include a housing including a hinge module, a first housing, and second housing. The first and second housings are rotatably coupled to each other via the hinge module to be in a folded state or an unfolded state. The electronic device may further include a flexible display, at least one conductive pattern disposed in the first housing, at least one conductor disposed at a position in the second housing corresponding to the at least one conductive pattern such that the at least one conductor is capacitively coupled to the conductive pattern when the electronic device is in the folded state, and a wireless communication circuit electrically connected to the at least one conductive pattern in the first housing. Other embodiments are also possible.

An embodiment includes eyewear having an optical element, electronic components, a support structure configured to support the optical element and the electronic components, and light emitting diodes (LEDs) coupled to the electronic components and supported by the support structure. The LEDs are positioned to illuminate the support structure according to a lighting scheme.