A cable connection structure includes: a substrate that includes: an opening; and a core wire connection electrode that is arranged on one of a principle surface and an inner layer across the opening; a cable that is arranged on a principle surface side of the substrate and includes a core wire that is electrically connected to the core wire connection electrode, the core wire connection electrode being extended so as to be separated from the substrate, the core wire connection electrode being connected to the core wire.

An electrical connector includes an insulative housing, a number of terminals and a metallic shielding plate s retained in the insulative housing, and a shielding shell attached to the insulative housing. The insulative housing has a base portion and a tongue portion extending forwardly from the base portion along an insertion direction. The terminals define a number of first contacts and second contacts. The first contacts and second contacts respectively define a pair of grounding contacts located at two sides thereof. Each grounding contact of the second contacts has a hook portion bent upwardly and extending inwardly from outmost edge thereof and located above the grounding contact of the first contacts located at the same side. A free end of the hook portion is contacted with the grounding contact of the first contacts at same side physically and electrically.

An electrical interconnection system with high speed, high density electrical connectors. One of the connectors includes a mating contact portion that has multiple contact surface. The mating contact portion has multiple segments, each with a contact surface, such that multiple points of contact to a complementary mating contact portion in a mating connector are provided for mechanical robustness. Such a mating contact may have parallel elongated members on which the mating surface are positioned, providing for the possibility of more than two contact surface per mating contact portion. The mating contact surfaces may be positioned on the elongated members such that the points of contact are at different distances from the distal end of the mating contact portion.

An electrical connector for connection between the CPU and the PCB includes an insulative housing, an insulative plate below the housing and a plurality of contacts retained to the housing and the plate. The housing forms a receiving cavity for receiving the CPU, and the plate forms a mounting face confronting the PCB. Each contact includes an upper part and a lower part discrete and independent from each other. The upper part includes an upward resilient arm extending into the receiving cavity for mechanically and electrically connecting to the CPU, and a bottom connecting section. The lower part includes a downward resilient arm extending toward the PCB for mechanically and electrically connecting to the PCB, and a top connecting section. The bottom connecting section and the top connecting section are mechanically and electrically connected to each other.

A contact element for connecting an electrical conductor and a conductor terminal with such a contact element are provided. The contact element includes a conductor insertion area in which there are two opposite first side walls, a first floor section connecting the first side walls and a first cover section opposite the first floor section. The first side walls, the first floor section and the first cover section limit a conductor insertion channel. One or both first side walls each have at least one spring tongue freed from the first floor section and the first cover section, which tongue forms a clamping point for clamping an electrical conductor by means of a spring force.

Systems and devices for providing differential input/output communication with a superconducting device are described. Each differential I/O communication is electrically filtered using a respective tubular filter structure incorporating superconducting lumped element devices and high frequency dissipation by metal powder epoxy. A plurality of such tubular filter structures is arranged in a cryogenic, multi-tiered assembly further including structural/thermalization supports and a device sample holder assembly for securing a device sample, for example a superconducting quantum processor. The interface between the cryogenic tubular filter assembly and room temperature electronics is achieved using hermetically sealed vacuum feed-through structures designed to receive flexible printed circuit board cable.

An electrical connection device for connecting a plug, preferably a HV pin header, to a printed circuit board in a motor vehicle, having the following: at least one first electrical connection-device for contacting at least one assigned plug-connector contact; at least one second electrical connection-device contact for contacting at least one assigned printed-circuit-board contact wherein at least one first connection-device contact at least one second connection-device contact are connected to one another, wherein the electrical connection device is configured in such a manner that at least one printed-circuit-board contact is able to be selectively connected to assigned plug-connector contacts which differ in terms of the relative disposal thereof in relation to the printed-circuit-board contact and/or differ from one another in that said plug-connector contacts are a component part of plug connectors which differ from one another in terms of the configuration of the respective plug-connector contacts thereof.

An embodiment of the invention provides a battery module assembly, including: a first battery module including a first module case housing a plurality of battery cells, and a first input/output terminal and a second input/output terminal that are provided at one side of the first module case; and a second battery module including a second module case housing a plurality of battery cells, and a first input/output terminal and a second input/output terminal that are provided at one side of the second module case. The first input/output terminal of the first battery module may be formed by extending a first module bus bar connected to at least one of the plurality of battery cells inside the module case, and may extend to the second input/output terminal of the second battery module to be connected to the second input/output terminal.

A cable connection structure includes a cable, a sheet-like wiring member, and a cable junction connector. The cable junction connector includes a first fitting and a second fitting. A connection portion of the first fitting and a connection portion of the second fitting interlock with each other in a state in which a part of a conductor formed on the sheet-like wiring member is sandwiched between a plate portion of the first fitting and a plate portion of the second fitting. The first fitting has an insulation-displacement contact which includes an open-ended slot. The cable is forced into the open-ended slot. A direction in which the cable is forced into the open-ended slot is perpendicular to a direction in which the cable extends and is parallel to a direction in which the part of the conductor is sandwiched between the plate portion of the first fitting and the plate portion of the second fitting.

A cable assembly comprising a connector with a termination that enables high density and high signal integrity. Shields of cables are terminated to a paddle card via a conductive structure attached to a surface of the paddle card. The signal conductors of the cables are terminated to pads on the paddle card that are exposed within openings of the conductive structure. Such a structure creates a ground structure per cable that provides low insertion loss and low crosstalk, even when multiple cables are aligned side by side and terminated in one or more rows. The cables may be drainless, enabling a large number of cables, such as eight cables, to be packed within the width of a paddle card specified in high density standards such as QSFP-DD or OSFP. The cables may nonetheless have large diameter signal conductors, enabling 2.5 or 3 meter assemblies with less than 17 dB insertion loss.