A filter element is mounted on a module substrate. The filter element includes a ground terminal and a pair of signal terminals. The module substrate includes a ground plane, a ground land, and an inductance adjusting line that connects the ground land to the ground plane. The ground terminal of the filter element is connected to the ground land of the module substrate. The inductance adjusting line includes an in-plane extending portion that extends in an in-plane direction of the module substrate.

A structure of transmission line includes a first transmission line, a second transmission line and an interlayer via. The first transmission line includes a first line segment, a second segment and a first signal via. The second transmission line includes a third line segment, a fourth segment and a second signal via. Both of the first line segment and the third line segment are disposed in a first signal transmission layer and extend along a first direction. Both of the second line segment and the fourth line segment are disposed in a second signal transmission layer and extend along a second direction. The first signal via is connected to the first line segment and the second line segment. The second signal via is connected to the third line segment and the fourth line segment. The interlayer via is adjacent to the first line segment or the second line segment.

A multilayer substrate and a manufacturing method thereof are disclosed. The multilayer substrate includes two or more dielectric layers laminated in sequence; a public line disposed at a top or bottom dielectric layer of the two or more dielectric layers; and two or more first through hole pillars respectively each embedded in a respective one of the dielectric layers, and the first through hole pillars are connected in cascade and then connected with the public line.

A circuit board and package assembly electrically connecting a die to a circuit board. The circuit board has signal paths terminating in a signal pad located on an insulating layer. The circuit board also includes a ground pad on the insulating layer that has a concave shaped side forming a recess, the with a signal pad at least partially within the recess. A package has package ground pads aligned with the circuit board ground pads and package signal pads aligned with circuit board signal pads. The package ground pads extend through the package to connect to package ground paths, which extend toward the die. The package signal pads extend through the package to connect to package signal paths and the package signal paths extend toward the die, maintaining a consistent distance from the package ground paths. Multiple-tier bond wires connect the package bond locations to the die bond pads.

An apparatus is described. The apparatus includes a semiconductor chip package substrate having a transmission line. The transmission line has a conductor to conduct current of a signal that is propagated along the transmission line. The conductor has an expanding width as the conductor approaches a vertical transition region. The vertical transition region is between the conductor and a solder ball. The transition region has multiple conducting vias at a same layer of the substrate. The multiple conducting vias are electrically connected to the conductor. The multiple conducting vias are radially arranged around a center axis of the solder ball.

An electrical contact pad for electrically contacting a connector includes first, second and third regions. The first region is connected to a trace. The second region is adjacent to the first region and has a width less than the first region. The third region is adjacent to the second region and has a width that is greater than the second region. The third region is sized to make contact with a connector. Having the width of the second region be smaller than the width of the first and third regions increases an impedance of the electrical contact pad.

In one embodiment, a grounding structure for a printed circuit board (PCB) of an information handling system includes: a first ground via electrically coupled to a ground layer of the PCB; a second ground via electrically coupled to the ground layer of the PCB; and a conductive strip electrically coupling the first ground via to the second ground via, the conductive strip providing a vertical ground reference for a signal transferred from a first surface of the PCB to a second surface of the PCB through a signal via disposed on the PCB.

Apparatus having at least one breakout structure are provided. In one example, an apparatus includes a dielectric layer, first and second contact pads, and first and second vias. The first and second contact pads are disposed on the dielectric layer. The first via is disposed through the dielectric layer and coupled to the first contact pad. The first via is offset from the first contact pad in a first direction. The second contact pad is immediately adjacent the first via. The second via is disposed through the dielectric layer immediately adjacent the first contact pad and coupled to the second contact pad. The second via is offset from the second contact pad in a second direction that is opposite of the first direction. The first and the second contact pads define a first differential pair of contact pads that is configured to transmit a first differential pair of signals.

The present invention aims to improve the signal transmission characteristics by shortening the length of the detour path of the return current. The present invention comprises a return current transmission path relative to a signal transmission path for transmitting signals. The signal transmission path includes a signal pad formed on a circuit board surface layer, and signal through-holes formed on the circuit board surface layer and a circuit board inner layer and connected to the signal pad. The return current transmission path includes a ground pad formed on the circuit board surface layer, and a plurality of ground through-holes formed on the circuit board surface layer and the circuit board inner layer and connected to the ground pad and a ground layer of the circuit board inner layer. Each of the ground through-holes is arranged by being separated on either side of the ground pad.

An antenna module includes a multilayer board, a phased array antenna that includes antenna elements arranged on an outer face of a second conductor layer included in the multilayer board and adjusts one or more beam directions of the antenna elements, a radio frequency (RF) chip that is arranged on an outer face of first conductor layers included in the multilayer board and outputs the radio frequency signal, a matching circuit that is arranged on the outer face of the first conductor layers and adjusts matching between impedance of the antenna elements and impedance of the RF chip, a through hole that couples the first conductor layers and the second conductor layer, and one or more vias that are on an outer side in a diameter direction of the through hole and couples the first conductor layers.