Provided is a connector module provided on an end of a communication cable, the connector module comprising a first terminal, a connector member that houses the first terminal, a tubular shield member that covers the outer circumference of the connector member, and a tubular conductive rubber member disposed in contact with the inner circumferential surface of the shield member, wherein the shield member comprises a housing part in which the conductive rubber member is disposed on the side where the end of the communication cable is inserted, the maximum outer diameter of the conductive rubber member when not compressed by the housing part exceeds the minimum inner dimension of the housing part and is equal to or less than the maximum inner dimension of an opening in the housing part, and at least a portion of the inner circumferential surface of the housing part comprises an inclined surface.

This connector assembly is provided with a communication cable, a tubular watertight plug, and a housing part, wherein the watertight plug is mounted on the outer circumferential surface of the communication cable, the housing part has a tubular inner circumferential surface covering the outer circumferential surface of the watertight plug and a raised section that projects out from the inner circumferential surface toward the watertight plug, and the raised section catches the watertight plug so as to oppose the slip-off direction of the watertight plug from the housing part.

The present invention relates to methods and systems for minimizing alien crosstalk between connectors. Specifically, the methods and systems relate to isolation and compensation techniques for minimizing alien crosstalk between connectors for use with high-speed data cabling. A frame can be configured to receive a number of connectors. Shield structures may be positioned to isolate at least a subset of the connectors from one another. The connectors can be positioned to move at least a subset of the connectors away from alignment with a common plane. A signal compensator may be configured to adjust a data signal to compensate for alien crosstalk. The connectors are configured to efficiently and accurately propagate high-speed data signals by, among other functions, minimizing alien crosstalk.

A receptacle connector assembly includes a receptacle cage having cage walls defining first, second, and third module channels in a stacked arrangement. The cage walls include a top wall, a first side wall, a second side wall, a first separator panel, and a second separator panel. The first and second side wall extend along opposite sides of the first, second and third module channels. The first separator panel is located between the first and second module channels. The second separator panel is located between the second and third module channels. The receptacle connector assembly includes a first receptacle module in the first module channel for mating with a first plug module, a second receptacle module in the second module channel for mating with a second plug module, and a third receptacle module in the third module channel for mating with a third plug module

A base station interface device including an interface board, which is located in a housing and determines an upper portion of a first surface as a first mounting location and an upper portion of a second surface opposite to the first surface as a second mounting location, including a relay connector wherein one end is exposed to the upper portion of the first surface and the other end is exposed to the upper portion of the second surface; a base station signal matching unit mounted on the first mounting location and including a first connector coupled to the one end of the relay connector; and a base station signal processing unit mounted on the second mounting location and including a second connector coupled to the other end of the relay connector.

An electrical connector includes a number of mating modules. The mating module includes a number of conductive terminals, a first metal shield, a second metal shield and cables. The conductive terminals extend along a mating direction. The conductive terminal includes a tail portion and a mating portion. The cable includes a core electrically connected to the tail portion. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. Compared with the prior art, the electrical connector of the present disclosure is a cable electrical connector. Besides, the conductive terminal extends along the mating direction, thereby simplifying the structural design of the conductive terminal. The present disclosure also discloses an electrical connector assembly having the electrical connector.

A signal module and a signal relay device that can suppress the effect of noise are provided, and the signal module is a signal module of a tool changer including a first coupling member to be detachably attached to a body side of an industrial robot and a second coupling member to be detachably attached to a tool side, the signal module including a signal relay connector attached to the first coupling member or the second coupling member, and upon the first coupling member and the second coupling member being coupled, forming a signal path between the first coupling member side and the second coupling member side, wherein in the signal relay connector, a plurality of terminal pairs to be used for communication using differential signals are provided, and two terminals of each of the terminal pairs are arranged at mutually-adjacent positions.

A signal module and a signal relay device that can suppress the effect of noise are provided, and the signal module is a signal module of a tool changer including a first coupling member to be detachably attached to a body side of an industrial robot and a second coupling member to be detachably attached to a tool side, the signal module including a signal relay connector attached to the first coupling member or the second coupling member, and upon the first coupling member and the second coupling member being coupled, forming a signal path between the first coupling member side and the second coupling member side, wherein in the signal relay connector, a plurality of terminal pairs to be used for communication using differential signals are provided, and two terminals of each of the terminal pairs are arranged at mutually-adjacent positions.

A connector assembly includes a shielding cover and a socket connector. The shielding cover includes a cover body, a compartment frame disposed at the cover body, and two insertion channels jointly defined by the cover body and the compartment frame and separated by the compartment frame in an up-down direction. The socket connector is disposed at a rear segment of the shielding cover, and includes two socket housings arranged in the up-down direction and respectively disposed at the two insertion channels, and a plurality of socket terminals. The compartment frame has a support structure located at a rear segment and providing support between the two socket housings. The support structure includes an upper support plate, a lower support plate, and a support block disposed between the upper support plate and the lower support plate.

A connector assembly includes a shielding cover and a socket connector. The shielding cover includes a cover body, a compartment frame disposed at the cover body, and two insertion channels jointly defined by the cover body and the compartment frame and separated by the compartment frame in an up-down direction. The socket connector is disposed at a rear segment of the shielding cover, and includes two socket housings arranged in the up-down direction and respectively disposed at the two insertion channels, and a plurality of socket terminals. The compartment frame has a support structure located at a rear segment and providing support between the two socket housings. The support structure includes an upper support plate, a lower support plate, and a support block disposed between the upper support plate and the lower support plate.