Various embodiments of the disclosure relate to a printed circuit for transmitting a signal in a high-frequency band and an electronic device including the same. The printed circuit board may include a flexible circuit board configured to transmit a signal in a high-frequency band, and the flexible circuit board may include: first multiple layers including a power line configured to transmit power; and second multiple layers stacked in a first direction of the first multiple layers and including a first signal line and a second signal line configured to transmit a signal in the high-frequency band. The first multiple layers may include a first punched region in which at least a portion overlapping the first signal line and the second signal line is removed, the second multiple layers may include a second punched region in which at least a portion overlapping the power line is removed, and at least a portion of the second punched region and the first punched region overlap each other forming a slit penetrating the flexible circuit board in the first direction.

A printed circuit board includes a reference plane embedded in a substrate and adjacent to the top surface of the substrate. The printed circuit board also includes a first signal net and a second signal net being in close proximity to each other and disposed within a specific region on the top surface of the substrate. An outermost insulating layer on the top surface of the substrate covers the substrate, the first signal net and the second signal net, and includes an opening to expose a portion of the second signal net. A conductive layer is disposed in the opening and on the outermost insulating layer corresponding to the specific region, such that the conductive layer overlaps with the first signal net. A fifth signal net is embedded in the substrate and between the reference plane and the outermost insulating layer.

A printed circuit board of an information handling system includes a dielectric layer, adjacent differential pairs, a ground layer, and a ground wall. The adjacent differential pairs are plated on the dielectric layer, and generate crosstalk between each other. The ground wall is in physical communication with and electrically coupled to the ground layer. The ground wall extends substantially perpendicular from the ground layer through the dielectric layer. A top surface of the ground wall is a specific height above a top surface of the adjacent different pairs. The ground wall suppresses the generated crosstalk based on the specific height and a width of the ground wall.

A printed circuit board (PCB) includes first and second signal voids and a guard trace formed on a surface of the PCB. The first and second signal voids are for connecting to signal contacts of a high-speed data communication interface. The guard trace is located between the first signal void and the second signal void. The PCB further includes first, second, and third ground vias that couple the guard trace to a ground plane of the PCB. The first ground via is located at a first end of the guard trace. The second ground via is located at a second end of the guard trace. The third ground via is located between the first via and the second via.

A transmission circuit includes a first semiconductor device, a second semiconductor device, a first signal line, a second signal line, a third signal line, and a ground line. A differential signal is composed of a first signal and a second signal. The first signal line is configured to connect the first semiconductor device and the second semiconductor device and used to transmit the first signal. The second signal line is configured to connect the first semiconductor device and the second semiconductor device and used to transmit the second signal. The second signal line, the first signal line, the ground line, and the third signal line are disposed in this order. A distance between the first signal line and the ground line is larger than a distance between the first signal line and the second signal line.

A circuit board for a display device includes: a signal line to transmit signal, a first metallic layer overlapping the signal line, a first conductive layer spaced apart from the first metallic layer, a base layer insulating the signal line from the first metallic layer and from the first conductive layer, and a first capacitor including a first terminal electrically coupled to the first metallic layer and a second terminal electrically coupled to the first conductive layer.

An electronic apparatus comprises a semiconductor device and a mounting substrate. The semiconductor device includes a semiconductor chip and a wiring circuit board. The chip includes a circuit blocks and first electrode pads. The wiring circuit board includes a first surface and a second surface. The first surface includes second electrode pads wirings. The second surface includes ball electrodes. A first wiring supplies a ground potential to a first circuit block. A second wiring supplies a ground potential to a second circuit block. The second surface includes a first extension pad and a second extension pad. The first extension pad and the second extension pad are disposed at positions at which they are connected to each other on the second surface side through a single ball electrode.

A backplane is for electrically connecting electrical components and a method is for producing a backplane. The backplane includes a base board, conducting tracks arranged on and/or in the base board, and at least one actuator unit arranged on or in the base board.

A group of contact pads (20EB) formed on a lower surface (20B) at a connection end of a board portion of an optical module board (20) includes, in order from the endmost end, a contact pad (20B1) conducting to a ground line (G), contact pads (20B2) and (20B3) conducting to transmission-side high-speed signal lines (S), a contact pad (20B4) conducting to the ground line (G), contact pads (20B5, 20B6, and 20B7) conducting to low-speed signal lines (S), a contact pad (20B8) conducting to the ground line (G), contact pads (20B9 and 20B10) conducting to receiving-side high-speed signal lines (S), and a contact pad (20B11) conducting to the ground line (G). Fixed terminal portions of a plurality of contact terminals (32ai) connected to the contact pads (20B2 and 20B3) conducting to the transmission-side high-speed signal lines (S) and the contact pads (20B9 and 20B10) conducting to the receiving-side high-speed signal lines (S) in a host connector (30) are electrically connected to conductive paths (16THL, 16RHL), which are continuous with high-speed signal lines formed on a plane shared with electrode portions (16BE2, 16BE3, 16BE9, and 16BE10) via the electrode portions (16BE2, 16BE3, 16BE9, and 16BE10) of a printed wiring board (16).

An electronic apparatus includes a printed board and an electroconductive shield member disposed such as to cover a shield area which is a part of a front surface of the printed board. A wiring connecting an inside and an outside of the shield area is disposed on the front surface of the printed board. The shield member has an opening that connects an inside and an outside of the shield member, at a position where the wiring passes through an outer edge of the shield area, and that extends in an extending direction of the wiring. The opening is electrically connected to a conductor disposed on an opposite side of the wiring from the opening, and the opening and the conductor form a waveguide surrounding the wiring.