A quantum mechanical circuit includes a substrate; a first electrical conductor and a second electrical conductor provided on the substrate and spaced apart to provide a gap therebetween; and a third electrical conductor to electrically connect the first electrical conductor and the second electrical conductor. The third electrical conductor is a poor thermal conductor.

A flexible circuit board comprises: a first dielectric which has a first signal line in contact with an upper surface or lower surface thereof, has a greater width than the first signal line, and extends along an extension direction of the first signal line; a second dielectric which is located below the first dielectric, has a second signal line in contact with the upper or lower surface thereof, has a greater width than the second signal line, and extends along an extension direction of the second signal line; a vertical section in which the first signal line and the second signal line are located on a same vertical line and the first signal line and the second signal line extend in parallel; and a horizontal section in which the position of the first signal line or the second signal line is changed through a via hole.

The concepts, systems, circuits and techniques described herein are directed toward a spiral antenna which may be provided using additive manufacturing technology so as to provide an antenna capable of operation at frequencies which are higher than spiral antennas manufactured using standard photo-etch or printed circuit board (PCB) manufacturing processes.

Multiple designs for a multi-layer circuit may be simulated to determine impedance profiles of each design, allowing a circuit designer to select a design based on the impedance profiles. One feature that can be modified is the structure surrounding the barrels of a differential VIA on layers that are not connected to the differential VIA. Specifically, one antipad can be used that surrounds both barrels or two antipads can be used, with one antipad for each barrel. Additionally, the size of the antipad or antipads can be modified. These modifications affect the impedance of the differential VIA. Additionally, a conductive region may be placed that connects to the VIA barrel even though the circuit on the layer does not connect to the VIA. This unused pad, surrounded by a non-conductive region, also affects the impedance of the differential VIA.

A connector assembly includes a first signal pin formed to be in contact with a signal line of a circuit board; a first insulator surrounding the first signal pin; and a first housing accommodating the first signal pin and the first insulator and having a hole at a rear thereof corresponding to the first signal pin, wherein the first housing includes at least one clamping arm disposed on at least one side of the hole, protruding to a rear of the first housing, and having a lower surface formed to be in contact with an upper surface of the circuit board and the connector assembly further includes a ground plate disposed below the clamping arm and having an upper surface formed to be in contact with a lower surface of the circuit board; a clamping plate movably disposed below the ground plate; and a fastening member.

Flex circuit embodiments are provided having high signal conductor density and high signal integrity. Electrical communication systems are described that are configured to be placed in electrical communication with the flex circuits. Electrical communication systems are described that include an electrical connector that is selectively intermatable with an electrical connector that is mounted to a flex circuit, and an electrical connector that is mounted to a substrate such as a printed circuit board (PCB).

A device that includes a first board, a second board, and coaxial cable coupled to the first board and the second board. The coaxial cable includes a multi-line coaxial cable configured to provide at least two electrical paths for electrical currents between the first board and the second board. A first plug is coupled to the first board. A second plug is coupled to the second board. The coaxial cable includes a first receptacle and a second receptacle. The first receptacle is configured to couple to the first plug. The second receptacle is configured to couple to the second plug. The coaxial cable is configured to provide (i) a first electrical path for a first electrical current between the first board and the second board, and (ii) a second electrical path for a second electrical current between the first board and the second board.

A cable connection apparatus, a connection assembly, and a method for manufacturing the connection assembly are provided. The cable connection apparatus includes: a back plate and a connection member. The back plate includes a plate body and a ground layer. The plate body defines a through hole and a plurality of shielding holes. The plurality of shielding holes are defined at a periphery of the through hole. The ground layer is arranged on each of two opposite sides of the plate body and is connected to each of the plurality of shielding holes. The connection member abuts against or connects to a surface of a side of the back plate arranged with the ground layer. The connection member is arranged with a signal pin, and the signal pin is received in the through hole.

An antenna carrier includes a flexible circuit board, the flexible circuit board comprising: a first dielectric formed to include a width direction and a length direction; a first signal line positioned on one side in the width direction of an upper surface or a lower surface of the first dielectric; a second signal line spaced apart from the first signal line to the other side in the width direction and positioned on the upper surface or the lower surface of the first dielectric; a second dielectric positioned on one side in the width direction above the first dielectric and having the first signal line positioned below the second dielectric; a third dielectric spaced apart from the second dielectric to the other side in the width direction and positioned below the first dielectric, and having the second signal line positioned above the third dielectric; a first ground; and a second ground.

An electronic substrate includes a dielectric core, a first conducting layer on a first side of the core and a second conducting layer on the second side of the core opposite the first side. At least one differential coaxial through-via includes a first inner signal through-via that is at least electrical conductor lined for a first signal path and at least a second inner signal through-via that is also at least electrical conductor lined positioned side-by-side and being dielectrically isolated from the first inner signal through-via for a second signal path. An annular-shaped outer ground shield enclosure is at least conductor lined that surrounds and is dielectrically isolated from both the first and second inner signal through-vias.