A terminal module includes a number of conductive terminals. The conductive terminal includes a contact portion, a transition portion connected with the contact portion and a connection portion electrically connected with the transition portion. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. The differential signal terminals include a first signal terminal and a second signal terminal. The terminal module further includes a fixing block fixed on the transfer portions of the first signal terminal and the second signal terminal. As a result, a distance between the first signal terminal and the second signal terminal can be controlled by the fixing block for improving the quality of data transmission. The present disclosure also discloses a backplane connector having the terminal module.

A terminal module includes a number of conductive terminals. The conductive terminal includes a contact portion, a transition portion connected with the contact portion and a connection portion electrically connected with the transition portion. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. The differential signal terminals include a first signal terminal and a second signal terminal. The terminal module further includes a fixing block fixed on the transfer portions of the first signal terminal and the second signal terminal. As a result, a distance between the first signal terminal and the second signal terminal can be controlled by the fixing block for improving the quality of data transmission. The present disclosure also discloses a backplane connector having the terminal module.

The present invention concerns a plug intended to be mounted on at least one cable whose one end supports one or more contacts comprising: a body, comprising: a front portion extending along a longitudinal axis, the front portion being designed to be lodged in a socket, the front portion being adapted to lodge and hold the contact(s) or at least an optoelectronic converter connected to the contact(s); a rear portion forming a sheath, designed to lodge the end of the cable, itself supporting the contact(s); the rear portion being mounted floating about the front portion; a plurality of flexible tabs made of electrically conductive material, distributed on the outer periphery of the front portion, the flexible tabs being adapted to remain in mechanical contact with the interior of the socket when the front portion is lodged in the latter.

A backplane connector includes a housing and a number of terminal modules assembled to the housing. The housing includes a base, a first side wall and a second side wall. The base, the first side wall and the second side wall jointly form a receiving space. The terminal module includes a first signal terminal and a second signal terminal. The housing includes a number of insulating protrusions integrally extending from the base. The insulating protrusions extend into the receiving space. The terminal modules are assembled in the insulating protrusions. Compared with the prior art, the insulating protrusions of the present disclosure is integrally formed with the base, thereby improving the structural strength of the housing and improving the durability of the backplane connector.

A backplane connector includes a housing and a number of terminal modules assembled to the housing. The housing includes a base, a first side wall and a second side wall. The base, the first side wall and the second side wall jointly form a receiving space. The terminal module includes a first signal terminal and a second signal terminal. The housing includes a number of insulating protrusions integrally extending from the base. The insulating protrusions extend into the receiving space. The terminal modules are assembled in the insulating protrusions. Compared with the prior art, the insulating protrusions of the present disclosure is integrally formed with the base, thereby improving the structural strength of the housing and improving the durability of the backplane connector.

An electrical connector comprises an insulative shell having a floor; a first plurality of contacts extending through the floor, wherein the first plurality of contacts are disposed in a plurality of columns; a second plurality of contacts extending through the floor, wherein the second plurality of contacts are interspersed with the first plurality of contacts within the plurality of columns; and a conductive member adjacent the floor. The conductive member comprises a first plurality of openings, wherein the first plurality of contacts extend through the openings of the first plurality of openings; a second plurality of openings, wherein the second plurality of contacts extend through the openings of the second plurality of openings; and a first plurality of tabs, extending into openings in the insulative shell.

An electrical connector comprises an insulative shell having a floor; a first plurality of contacts extending through the floor, wherein the first plurality of contacts are disposed in a plurality of columns; a second plurality of contacts extending through the floor, wherein the second plurality of contacts are interspersed with the first plurality of contacts within the plurality of columns; and a conductive member adjacent the floor. The conductive member comprises a first plurality of openings, wherein the first plurality of contacts extend through the openings of the first plurality of openings; a second plurality of openings, wherein the second plurality of contacts extend through the openings of the second plurality of openings; and a first plurality of tabs, extending into openings in the insulative shell.

A connector (50) according to the present disclosure is a connector (50) to be mounted on a circuit board (CB2) and to be connected to a mating connector (10) including a first shield member (40). The connector (50) includes an insulator (60), a contact (70a) attached to the insulator (60), and a second shield member (80) attached to the insulator (60) on a same side as the contact (70a). The second shield member (80) includes a base portion (81b) that is adjacent to the contact (70a) in a first direction perpendicular to a connecting direction in which the mating connector (10) and the connector (50) are to be connected, a mount portion (86b) that is formed on a side of the base portion (81b) opposite to the contact (70a) in the first direction and that is to be mounted on the circuit board (CB2), and a contacting portion (85b) that extends from the mount portion (86b) toward a connection side in the connecting direction and that is to be in contact with the first shield member (40).

A connector (50) according to the present disclosure is a connector (50) to be mounted on a circuit board (CB2) and to be connected to a mating connector (10) including a first shield member (40). The connector (50) includes an insulator (60), a contact (70a) attached to the insulator (60), and a second shield member (80) attached to the insulator (60) on a same side as the contact (70a). The second shield member (80) includes a base portion (81b) that is adjacent to the contact (70a) in a first direction perpendicular to a connecting direction in which the mating connector (10) and the connector (50) are to be connected, a mount portion (86b) that is formed on a side of the base portion (81b) opposite to the contact (70a) in the first direction and that is to be mounted on the circuit board (CB2), and a contacting portion (85b) that extends from the mount portion (86b) toward a connection side in the connecting direction and that is to be in contact with the first shield member (40).

A coil spring has a longitudinal component located within the coil spring, where the longitudinal component runs generally along the direction of a longitudinal axis of the coil spring and where the longitudinal component is in contact with the coil spring, characterized in that the longitudinal component biases the coil spring into a shape different from its natural shape and/or from the shape into which the coil spring is biased by a groove in which the coil spring is accommodated. Moreover, the coil spring may be shaped by means of the described longitudinal component. Further, a connector part is disclosed that has the described coil spring and is configured for being connected with a mating connector part. And finally, a connector is disclosed which has the described connector part and the mating connector part.