A chip includes a plurality of ground conductors that at least partially surround a signal conductor on a same die. The signal conductor carries an interface (e.g., high speed) signal, and the ground conductors filter electromagnetic interference generated by the signal carried by the signal conductor. A chip package includes a plurality of ground pins around a signal pin that carries an interface signal. The ground pins filter electromagnetic interference generated by the signal carried by the signal pin. A printed circuit board includes a plurality of ground conductors around a signal line. The ground conductors are in vias and filter electromagnetic interference generated by an interface signal carried by the signal line.

A circuit board for a control device for a vehicle includes a clamp edge for clamping on a cover for covering circuit board, the clamp edge being formed by an electrically conductive layer that is situated on an upper side of the circuit board. The circuit board has a plurality of solder bumps for shielding an electromagnetic radiation, the solder bumps being arranged in a row in clamp edge, and each of solder bumps being insulated from the electrically conductive layer by a ring of solder resist.

A circuit board includes a board base with a first surface and a second surface that is located opposite the first surface. A plurality of first coupling pads are located on the first surface of the board base. A plurality of second coupling pads are located on the second surface of the board base. The first coupling pads and the second coupling pads define a coupling pad footprint. A breakout via system is included in the board base. The breakout via system includes a plurality of primary signal vias that are located in the board base and outside of the coupling pad footprint, a plurality of first primary signal via connections that extend between the primary signal vias and the plurality of first coupling pads, and a plurality of second primary signal via connections that extend between the primary signal vias and the plurality of second coupling pads.

Systems for shielding bent signal lines provide ways to couple different antenna arrays for radio frequency (RF) integrated circuits (ICs) (RFICs) associated therewith where the antenna arrays are oriented in different directions. Because the antenna arrays are oriented in different directions, the antenna structures containing the antennas may be arranged in different planes, and signal lines extending therebetween may include a bend. To prevent electromagnetic interference (EMI) or electromagnetic crosstalk (EMC) from negatively impacting signals on the signal lines, the signal lines may be shielded. The shields may further include vias connecting the mesh ground planes and positioned exteriorly of the signal lines. The density of the vias may be varied to provide a desired rigidity in planes containing the antenna arrays while providing a desired flexibility at a desired bending location in the signal lines to help bending process accuracy.

An interposer and method of providing spatial and arrangement transformation are described. An electronic system has an electronic package, a motherboard and an interposer between the package and the motherboard. The interposer has signal and ground contacts on opposing surfaces that are respectively connected. The contacts opposing the package has a higher signal to ground contact ratio than the contacts opposing the motherboard, as well as different arrangements. Ground shielding vias in the interposer, which are connected to a ground plane, electrically isolate the signals through the interposer. The package may be mounted on a shielded socket such that signal and ground pins are mounted respectively in signal and ground socket mountings, ground shielding vias are between the signal socket mountings, and the ground socket mountings contain plated socket housings.

According to various embodiments described herein, an article comprises a glass or glass-ceramic substrate having a first major surface and a second major surface opposite the first major surface, and a via extending through the substrate from the first major surface to the second major surface over an axial length in an axial direction. The article further comprises a helium hermetic adhesion layer disposed on the interior surface; and a metal connector disposed within the via, wherein the metal connector is adhered to the helium hermetic adhesion layer. The metal connector coats the interior surface of the via along the axial length of the via to define a first cavity from the first major surface to a first cavity length, the metal connector comprising a coating thickness of less than 12 μm at the first major surface. Additionally, the metal connector coats the interior surface of the via along the axial length of the via to define a second cavity from the second major surface to a second cavity length, the metal connector comprising a coating thickness of less than 12 μm at the second major surface and fully fills the via between the first cavity and the second cavity.

An electronic assembly is provided, including a wiring board, a control element, and a pair of first internal electrical connectors. The wiring board includes a mounting surface, a first patterned conductive layer, a plurality of second patterned conductive layers, a plurality of near conductive holes, a plurality of far conductive holes, and a first conductive path. The first patterned conductive layer is located between the mounting surface and the second patterned conductive layers. The control element is mounted on the mounting surface of the wiring board. The pair of first internal electrical connectors are mounted on the mounting surface of the wiring board, and are adapted for mounting a pair of memory modules. The first conductive path extends from the control element at least through the corresponding second patterned conductive layer and the first patterned conductive layer to the pair of first internal electrical connectors.

An electronic device includes a supporting board, an electrical board and electronic units. The supporting board includes a circuit layer. The electrical board has a board body, through holes through the board body, an electrical layer on the board body, and primary conductive elements respectively in the through holes. The board body has opposite first and second surfaces. The through holes communicate with the first surface and the second surface. The primary conductive elements electrically connect the electrical layer to the circuit layer. The electronic units are arranged on the first surface. Each electronic unit partially overlaps with one corresponding through hole in a projection direction of the electrical board. Each electronic unit has an electronic component and a secondary conductive element electrically connecting the electronic component to the electrical layer. The secondary conductive elements and the primary conductive elements are arranged in dislocation in the projection direction.

A substrate layered structure including a first circuit board; a second circuit board overlapping the first circuit board; and interposer blocks interposed between the first circuit board and the second circuit board and spaced apart from each other. Further, each corresponding interposer block includes a dielectric block body; a plurality of signal via holes passing through the dielectric block body and transferring signals between the first circuit board and the second circuit board; and a plurality of signal pads arranged at first ends of the signal via holes and connected to the first circuit board and arranged at second ends of the signal via holes and connected to the second circuit board.

A wiring substrate includes an insulating layer, a conductor layer formed on the insulating layer and including a conductor pad having a rectangular planar shape, and a solder resist layer formed on the insulating layer such that the solder resist layer is covering the conductor layer formed on the insulating layer. The solder resist layer has an opening formed such that the opening is exposing 50% or more of an area of a surface of the conductor pad on the opposite side with respect to the insulating layer and exposing a side surface and the surface of the conductor pad at side portions of a peripheral edge of the conductor pad and that the solder resist layer is covering the side surface and the surface of the conductor pad at one or more of corner portions of the peripheral edge of the conductor pad.