To prevent decrease of the bonding strength of an electronic component and a multilayer substrate, an electronic component-embedded module may include an electronic component having a plurality of pads and a multilayer substrate which includes a plurality of resin layers and a cavity for containing the electronic component. The multilayer substrate may include a first resin layer having a plurality of first pattern conductors and a space, and a second resin layer having a second pattern conductor and a plurality of third pattern conductors. The plurality of third pattern conductors may be in conduction with either of the first pattern conductors or the pads, with the second resin layer being placed over the first resin layer. The second pattern conductor may be arranged around a first pad with a gap, and the second resin layer is present between the second pattern conductor and at least one of the first pads.

The present disclosure provides a conductive film of a touch panel. The conductive film has a film and a plurality of a plurality of hydrophobic units. The film is used for sensing touch signals, and the hydrophobic units are disposed in the film with intervals. Conductive material of the conductive film of the touch panel is distributed outside the region of the hydrophobic units, and as the hydrophobic units have good light transmittance, the touch panel of the present disclosure has a characteristic of high light transmittance.

An electronic device may have control circuitry coupled to input-output devices such as a display. A flexible input-output device may be formed from an elastomeric substrate layer. The substrate layer may have signal paths to which components are mounted. Openings may be formed in the elastomeric substrate layer between the signal paths to create a stretchable mesh-shaped substrate. The electrical components may each include an interposer having solder pads soldered to the elastomeric substrate. Electrical devices such as micro-light-emitting diodes may be soldered to the interposers. The electrical components may also include electrical devices such as sensors and actuators. A stretchable lighting unit may have a stretchable light guide illuminated by a stretchable light source.

A printed wiring board includes a first outer surface, a second outer surface, and an electronic circuit. The second outer surface is opposite to the first outer surface. The electronic circuit includes at least one specific design circuit block and at least one common design circuit block. The at least one specific design circuit block is provided on the first outer surface and designed in accordance with a specification of a device to which the printed wiring board is applied. The at least one common design circuit block is for a common use regardless of the specification of the device. The at least one common design circuit block is provided on the second outer surface.

The description relates to electronic prototyping platforms. One example can include an electrically insulative substrate having generally opposing first and second major surfaces and that includes an orientation feature that is visible on both of the first and second major surfaces. The example can include a first mounting hole through the substrate that is bordered by a first electrical conductor associated with data transmission. The example can also include a second mounting hole through the substrate that is bordered by a second electrical conductor associated with electrical ground, and a third mounting hole through the substrate that is bordered by a third electrical conductor associated with electrical power. The example can also include an edge connector tab defined by the substrate and having three exposed electrically conductive contacts that are coupled to the data electrical conductor, the ground electrical conductor, and the power electrical conductor and insulated from one another.

A wiring board includes: a substrate having transparency; a plurality of first wirings which are arranged on an upper surface of the substrate and extend in a first direction and each of which has a back surface in contact with the substrate and a front surface facing an opposite side of the back surface; and has a back surface in contact with the substrate and a front surface facing an opposite side of the back surface. The first wiring has a pair of side surfaces which extend in the first direction and are adjacent to the back surface of the first wiring, and each of the pair of side surfaces of the second wiring is recessed inward. The second wiring has a pair of side surfaces which extend in the second direction and are adjacent to the back surface of the second wiring.

There is provided a semiconductor apparatus including: a memory operation terminal for inputting a first signal; a high-speed communication terminal for inputting a second signal to a high-speed communication controller; an inspection terminal for performing debugging; and a terminal mounting surface at which a plurality of coupling terminals including the memory operation terminal, the high-speed communication terminal, and the inspection terminal are provided, in which the terminal mounting surface includes a first side, a second side, a third side, and a fourth side, the plurality of coupling terminals include a first terminal row located adjacent to the third side and arranged from the first side toward the second side; the first terminal row includes a first inspection terminal among the plurality of inspection terminals, and the first inspection terminal is located closest to the first side in the first terminal row.

A lighting strip has a printed circuit board with one or more perforated lines at which the printed circuit board length may be adjusted by breaking off an end portion of the printed circuit board. A first layer has a first set of conductive tracks and a second layer has a second set of conductive tracks corresponding to the first set of conductive tracks. Each conductive track of the second set is vertically aligned and positioned over the corresponding conductive track of the first set. An array of contact terminals is provided on a third layer. A plurality of lighting elements is disposed along the lighting strip, each electrically connected to a respective pair of the contact terminals. The lighting strip further comprises a set of vias connecting each conductive track of the first set to the corresponding conductive track of the second set.

Circuit arrangement for vehicles with at least one semiconductor element 30 and at least one first metal carrier plate 2a and a metal circuit board 2b. A multifaceted scope of application is provided if the carrier plate 2a is electrically insulated from the circuit board 2b and the carrier plate 2a is electrically linked with at least one of the circuit boards 2b by means of at least one semiconductor device 30 so that the carrier plate 2a and the circuit board 2b form an electrical three-pole.

An electronic device may have control circuitry coupled to input-output devices such as a display. A flexible input-output device may be formed from an elastomeric substrate layer. The substrate layer may have signal paths to which components are mounted. Openings may be formed in the elastomeric substrate layer between the signal paths to create a stretchable mesh-shaped substrate. The electrical components may each include an interposer having solder pads soldered to the elastomeric substrate. Electrical devices such as micro-light-emitting diodes may be soldered to the interposers. The electrical components may also include electrical devices such as sensors and actuators. A stretchable lighting unit may have a stretchable light guide illuminated by a stretchable light source.