According to an embodiment of the disclosure, a wearable electronic device may include a housing, a first printed circuit board (PCB), a second PCB disposed in parallel with the first PCB, a first interposer, and a second interposer, and the housing may include at least one first opening formed on a first portion, and the first interposer and the second interposer may be disposed between the first PCB and the second PCB, the first interposer and the second interposer may be disposed to have a first end of the first interposer and a second end of the second interposer facing the first end, spaced apart by a designated distance, and a first space between the first end and the second end may be connected to the at least one first opening of the housing. Various other embodiments are possible.

Various embodiments disclosed relate to LiDAR systems. The present disclosure includes a method and assemblies for connection photonics modules to LiDAR systems. In an example, a connection assembly can include a system board, a flex printed circuit board (PCB) connected to the system board through an interface, a photonics integrated circuit die mounted on a first side of the flex PCB and an electronic integrated circuit die mounted on a second side of the flex PCB, opposite the first side.

A multilayer substrate includes a pair of first capacitor electrodes, a pair of second capacitor electrodes, and a dielectric substrate. Electrodes of the pair of first capacitor electrodes are disposed in dielectric substrate so as to face each other in a thickness direction of the dielectric substrate. Electrodes of the pair of second capacitor electrodes are disposed in the dielectric substrate so as to face each other in the thickness direction. A first element and a second element that are disposed in or on the dielectric substrate, and the pair of second capacitor electrodes, the pair of first capacitor electrodes, and a ground electrode that are disposed in the dielectric substrate are arranged in the stated order in the thickness direction. The pair of second capacitor electrodes at least partially overlaps the pair of first capacitor electrodes when viewed in plan in the thickness direction.

A circuit board assembly and electronic device are provided that improve the reliability of the connection between circuit boards and electronic components. The circuit board assembly includes a first circuit board, including a first side surface and a first sidewall pad, where the first sidewall pad is disposed on the first side surface, a second circuit board, fastened to the first circuit board, where the first sidewall pad is located at a position close to the second circuit board, and sidewall solder, adhered to the first sidewall pad and the second circuit board.

The disclosure provides a power supply module, including: a pin; a magnetic core including: a first and second magnetic plate arranged in parallel; a first upper wiring layer; a first middle wiring layer; a first lower wiring layer, wherein at least a part of the first upper wiring layer and the first middle wiring layer are connected to form a first winding surrounding the first magnetic plate, at least a part of the first lower wiring layer and the first middle wiring layer are connected to form a second winding surrounding the second magnetic plate. The magnetic core, the first and second winding form a magnetic element electrically connected to a switch. A magnetic loop surrounds a first axis, the first winding surrounds a second axis, the second winding surrounds a third axis, the first, second and third axis are parallel to a plane where the pin is located.

A capacitor loop substrate assembly includes a substrate with a loop shape, one or more capacitors or other electronic components on the substrate, and an opening in the substrate to allow the capacitor loop substrate assembly to be coupled to an integrated circuit package, such as a package including a die. Interconnects and/or contacts for interconnects are formed in an integrated circuit package to couple the capacitor loop substrate assembly to the integrated circuit package.

Disclosed are a printed circuit board connector according to an embodiment and a module device including same. The printed circuit board connector comprises: a substrate; holes formed in the substrate at predetermined intervals and coated with a metal material on the inner circumferential surface thereof so as to form a metal layer; a first metal pad formed at one end of the holes and connected to the metal layer; and a second metal pad formed at the other end of the holes and connected to the metal layer.

Disclosed is a printed circuit board assembly comprising: a first printed circuit board; a second printed circuit board stacked with the first printed circuit board; and an interposer arranged between the first printed circuit board and the second printed circuit board, wherein the second printed circuit board includes a first part and a second part extending in a first direction from a part of the first part and wherein a length of the second part in a second direction perpendicular to the first direction is less than a length in the second direction of the first part, and wherein the direction of a first conductive pattern formed on the first part and the direction of a second conductive pattern formed on the second part are substantially perpendicular to each other.

A twistable electronic device module including a twistable substrate, an electrode pattern layer, an insulating layer, a circuit layer, a plurality of circuit boards and a plurality of electronic devices is provided. The electrode pattern layer is disposed on the twistable substrate. The insulating layer is disposed on the electrode pattern layer. The edge of the insulating layer has an opening located at the edge of the twistable substrate and exposing a part of the electrode pattern layer. The circuit layer is disposed on the insulating layer and on the sidewall of the opening, and is connected with the electrode pattern layer. The plurality of circuit boards are disposed on the circuit layer, and each is electrically connected to the circuit layer. The plurality of electronic devices are disposed on the plurality of circuit boards, and each is electrically connected to a corresponding one of the plurality of circuit boards

An electronic component includes an electronic element and an interposer board. The electronic element includes a multilayer body and external electrodes each at a respective one of multilayer body end surfaces of the multilayer body and connected to internal electrode layers. The interposer board includes board end surfaces, board side surfaces orthogonal to the board end surfaces, and board main surfaces orthogonal to the board end surface and the board side surface. One of the board main surfaces is located in a vicinity of the electronic element and joined with one of multilayer body main surfaces in a vicinity of the interposer board. The interposer board is an alumina board. The external electrodes each include a first Sn plated layer that covers an outer surface of the interposer board in a vicinity of at least one board end surface.