A circuit board having multiple degrees of freedom, comprises a flat board and a conductive and flexible unit disposed on the flat board. The conductive and flexible unit comprises: an inner support plate, an outer support plate, and at least one flexible connector; a hollow portion is provided on the outer support plate; the inner support plate and the flexible connector are disposed in the hollow portion; the inner and the outer support plates are connected by the flexible connector; the flexible connector comprises an outer connecting portion, an inner connecting portion corresponding to the outer connecting portion, and an extension located between the outer connecting portion and the inner connecting portion. The circuit board has a simple and compact structure; the production efficiency is high; costs are low; a multi-axis flexible anti-shaking effect can be achieved without folding a flexible structure; the resilience performance is good.

This publication discloses an electronic module, comprising a first conductive pattern layer and a first insulating-material layer on at least one surface of the first conductive pattern layer, at least one opening in the first insulating-material layer that extends through the first insulating-material layer, a component having a contact surface with contact terminals, the component being arranged at least partially within the opening with its contact terminals electrically coupled to the first conductive pattern layer, a second insulating-material layer provided on the first insulating-material layer, and a conductive pattern embedded between the first and second insulating material layers. This publication additionally discloses a method for manufacturing an electronic module.

A printed circuit board includes an insulating layer, a pad, and a via fill. The insulating layer includes a via hole. The pad is formed in the insulating layer such that an intermediate portion thereof is exposed by the via hole. The pad includes a through hole formed in the intermediate portion. The via fill is formed in the via hole, configured to fill the through hole, and coupled to the intermediate portion.

The invention provides an electronic device that includes a first functional body, a second functional body, and at least one connection member connecting the first functional body to the second functional body. The at least one connection member has a spiral pattern, and is suspended in air to allow for stretching, flexing or compressing.

An example sensor interposer employing castellated through-vias formed in a PCB includes a planar substrate defining a plurality of castellated through-vias; a first electrical contact formed on the planar substrate and electrically coupled to a first castellated through-via; a second electrical contact formed on the planar substrate and electrically coupled to a second castellated through-via, the second castellated through-via electrically isolated from the first castellated through-via; and a guard trace formed on the planar substrate, the guard trace having a first portion formed on a first surface of the planar substrate and electrically coupling a third castellated through-via to a fourth castellated through-via, the guard trace having a second portion formed on a second surface of the planar substrate and electrically coupling the third castellated through-via to the fourth castellated through-via, the guard trace formed between the first and second electrical contacts to provide electrical isolation between the first and second electrical contacts.

The present invention uses a photolithography process and an electroplating process to perform. TAV copper filling and patterning of the fabrication of the double side copper-plated layers to plate the double side copper-plated layers in advance at the TAV through holes to serve as a stress buffer layer of the aluminum nitride substrates. Then the subsequent pattern designs of the copper-plated layers are customized. According to the simulation theory calculations, it is proved that the stress which accumulates on the short-side of the copper-plated layer of the aluminum nitride substrate with the asymmetric structure may be effectively reduced to facilitate the improvement of the reliability of the aluminum nitride substrate.

A circuit board comprises a row of solder pads adapted to be soldered to a row of contacts of a connector, a plurality of first conductive vias, and a plurality of second conductive vias. The contacts include a plurality of ground contacts and a plurality of signal contacts. The solder pads include a plurality of ground solder pads each soldered to a solder foot of one of the ground contacts and a plurality of signal solder pads each soldered to a solder foot of one of the signal contacts. The first conductive vias correspond to and are electrically connected to the ground solder pads and are electrically connected to each other by a first connection bar. The second conductive vias correspond to and are electrically connected to the ground solder pads and are electrically connected to each other by a second connection bar. The solder foot of each of the ground contacts is disposed between one of the first conductive vias and one of the second conductive vias.

A lighting unit for a vehicle has a light source carrier with an arrangement of data lines. The lighting unit also has a plurality of light sources positioned on the light source carrier, each of which has an integrated control unit and which are interconnected via the arrangement of data lines in order to exchange data according to a predefined protocol. The rear face of the light source carrier has a plurality of cavities. The front face of the light source carrier is light-conductive, at least in the region of the cavities. The arrangement of data lines is on the rear face of the light source carrier and the line ends of the data lines lead up to or into the number of cavities. At least one light source is fitted into each of the plurality of cavities, such that each light emission surface is oriented towards the floor of the cavity and the light source is electrically contacted and held in the cavity by electrical and mechanical contact with the line ends of the data lines.

A flexible printed circuit board is proposed. The flexible printed circuit board includes at least one soldering element possessing a soldering face, accessible from a first face of the flexible printed circuit board, and a heating face, accessible from a second face of the flexible printed circuit board. Such a flexible printed circuit board includes a main part including the soldering element, and at least one foldable part, extending from the main part and being configured to pass: from a non-folded state, in which the at least one foldable part does not cover the heating face of the at least one soldering element; to a folded state in which the at least one foldable part covers the heating face of the at least one soldering element.

A circuit board according to an embodiment includes an insulating portion; and a pattern portion disposed on the insulating portion, wherein the insulating portion includes: a first insulating region, and a second insulating region disposed outside the first insulating region and spaced apart from the first insulating region with a separation region therebetween; wherein the pattern portion includes: a first pattern portion for signal transmission; and a second pattern portion including a dummy pattern separated from the first pattern portion, wherein the first pattern portion includes: a first terminal portion disposed on the first insulating region; a second terminal portion disposed on the second insulating region; and a connection portion disposed on the separation region and connecting between the first terminal portion and the second terminal portion, wherein the second pattern portion includes: a second-first pattern portion disposed on the first insulating region; and a second-second pattern portion disposed on the second insulating region and separated from the second-first pattern portion.