A contact assembly for an electrical connector signal contacts arranged in pairs and ground contacts are interspersed with the pairs of the signal contacts. Each signal contact includes a signal contact body having first and second sides extending between a signal mating end and a signal terminating end. Each ground contact includes a ground contact body having first and second sides extending between a ground mating end and a ground terminating end. The contact assembly includes a ground shield assembly including a ground shield spanning across the contacts and ground connective elements electrically connected to the ground shield and the corresponding ground contacts. The ground connective elements are compressible.

A terminal assembly and an electrical connector. The terminal assembly comprises a plurality of terminals, an insulating body, a first electromagnetic shielding member, and a second electromagnetic shielding member. The plurality of terminals comprises a plurality of signal terminals and a plurality of ground terminals. The signal terminals and the ground terminals are disposed at intervals. At least one signal terminal is disposed between two adjacent ground terminals. The insulating body is disposed at the plurality of terminals. One end of each terminal protrudes from one side of the insulating body, while the other end is exposed from the insulating body. The first electromagnetic shielding member is disposed at one side of the insulating body and is connected with the plurality of ground terminals. The second electromagnetic shielding member is disposed at the other side of the insulating body and is opposite to the first electromagnetic shielding member.

A terminal assembly and an electrical connector. The terminal assembly comprises a plurality of terminals, an insulating body, a first electromagnetic shielding member, and a second electromagnetic shielding member. The plurality of terminals comprises a plurality of signal terminals and a plurality of ground terminals. The signal terminals and the ground terminals are disposed at intervals. At least one signal terminal is disposed between two adjacent ground terminals. The insulating body is disposed at the plurality of terminals. One end of each terminal protrudes from one side of the insulating body, while the other end is exposed from the insulating body. The first electromagnetic shielding member is disposed at one side of the insulating body and is connected with the plurality of ground terminals. The second electromagnetic shielding member is disposed at the other side of the insulating body and is opposite to the first electromagnetic shielding member.

A card edge connector includes a housing configured to be mounted to a host circuit board and having a card slot at the front configured to receive a card edge of a module circuit card of the pluggable module. A contact assembly is received in a cavity of the housing having cable contacts arranged in an upper contact set and lower contact set. An upper ground bus bar is electrically connected to terminating ends of the ground contacts of the upper contact set and a lower ground bus bar is electrically connected to the ground contacts of the lower contact set. A ground element is coupled to the upper ground bus bar or the lower ground bus bar and includes a board termination component configured to be terminated to the host circuit board to electrically connect the corresponding ground bus bar to the host circuit board.

A connector structure includes an insulating case, a terminal set and a grounding component. The terminal set is configured in the insulating case. The terminal set further includes a first terminal set, and the first terminal set includes a plurality of signal terminals and a plurality of grounding terminals. The grounding component is configured in the insulating case. The grounding component includes a component body and a graphene layer configured on a surface of the component body. The first grounding terminals are connected in series by contacting the graphene layer.

A high-speed connector includes an insulating housing, a first terminal assembly received in the insulating housing, a second terminal assembly received in the insulating housing, a third terminal assembly received in the insulating housing, and a fourth terminal assembly received in the insulating housing. The second terminal assembly is opposite to the first terminal assembly along an up-down direction. The third terminal assembly is disposed between the first terminal assembly and the second terminal assembly. The fourth terminal assembly is corresponding to the third terminal assembly. The fourth terminal assembly is disposed between the second terminal assembly and the third terminal assembly.

A high-speed connector includes an insulating housing, a first terminal assembly received in the insulating housing, a second terminal assembly received in the insulating housing, a third terminal assembly received in the insulating housing, and a fourth terminal assembly received in the insulating housing. The second terminal assembly is opposite to the first terminal assembly along an up-down direction. The third terminal assembly is disposed between the first terminal assembly and the second terminal assembly. The fourth terminal assembly is corresponding to the third terminal assembly. The fourth terminal assembly is disposed between the second terminal assembly and the third terminal assembly.

A terminal module includes an insulating member, a number of conductive terminals, and a conductive plastic. Each conductive terminal includes a fixing portion. The conductive terminals include a group of signal terminals, a first ground terminal and a second ground terminal. The terminal module includes a first rib, a second rib and a groove. The first rib is adjacent to but not in contact with the fixing portion of the first ground terminal. The second rib is adjacent to but not in contact with the fixing portion of the second ground terminal. The present disclosure also relates to a backplane connector having the terminal module. Compared with the prior art, by making the first ground terminal and the second ground terminal non-conducting, it easier to determine the accuracy of the electrical test.

A terminal module includes an insulating member, a number of conductive terminals, and a conductive plastic. Each conductive terminal includes a fixing portion. The conductive terminals include a group of signal terminals, a first ground terminal and a second ground terminal. The terminal module includes a first rib, a second rib and a groove. The first rib is adjacent to but not in contact with the fixing portion of the first ground terminal. The second rib is adjacent to but not in contact with the fixing portion of the second ground terminal. The present disclosure also relates to a backplane connector having the terminal module. Compared with the prior art, by making the first ground terminal and the second ground terminal non-conducting, it easier to determine the accuracy of the electrical test.

A connector comprises a housing and a plurality of contacts retained in the housing. Each of the contacts extends in a longitudinal direction and has a retained portion, a contacting portion disposed in front of the retained portion in the longitudinal direction, and a connecting portion disposed behind the retained portion in the longitudinal direction. Each of the contacting portion and the connecting portion are shifted with respect to the retained portion in a vertical direction perpendicular to the longitudinal direction. The housing is in contact with the retained portion of each of the contacts from both above and below in the vertical direction and from both right and left in a lateral direction perpendicular to the vertical direction and the longitudinal direction.