To help maintain and improve signal integrity, a connector housing can include one or more of the following: asymmetric keying features, asymmetric alignment features, and alternating stitched contacts. First and second contact rows and third and fourth contact rows can each have a first row pitch, and the second and the third contact rows can have a second, greater row pitch. First and second keying structures can be positioned non-symmetrically about both longitudinal and median centerlines of the connector housing. If first, second, third, and fourth contacts all lie on a common centerline of the connector housing, the first and the third contacts can be inserted in a first direction, and the second and the fourth contacts can be inserted in a second, opposite direction. First and second contact securing structures can engage the connector housing at different heights of the connector housing.

To help maintain and improve signal integrity, a connector housing can include one or more of the following: asymmetric keying features, asymmetric alignment features, and alternating stitched contacts. First and second contact rows and third and fourth contact rows can each have a first row pitch, and the second and the third contact rows can have a second, greater row pitch. First and second keying structures can be positioned non-symmetrically about both longitudinal and median centerlines of the connector housing. If first, second, third, and fourth contacts all lie on a common centerline of the connector housing, the first and the third contacts can be inserted in a first direction, and the second and the fourth contacts can be inserted in a second, opposite direction. First and second contact securing structures can engage the connector housing at different heights of the connector housing.

The present application provides a female connector and a connector assembly. The female connector is used to connect to a PCB board internally provided with a signal layer and a drilling hole penetrating the signal layer, the female connector including: a female terminal having two ends, one end being a connecting end for mating with a male connector or a gold finger circuit board, and the other end forming a crimping pin to be inserted into a drilling hole and connected with the signal layer; a high-frequency radiation area being formed in the vicinity of a connection between the crimping pin and the drilling hole when the connecting end is mated with the male connector or the gold finger circuit board; and a wave-absorbing material is disposed in a spatial scope covered by the high-frequency radiation area. By selectively disposing a wave-absorbing material in an area where a high-frequency radiation is easily generated during the use of the connector, crosstalk signals are absorbed, while normally transmitted electrical signals are kept, and an overall weight of the connector is light.

The present application provides a female connector and a connector assembly. The female connector is used to connect to a PCB board internally provided with a signal layer and a drilling hole penetrating the signal layer, the female connector including: a female terminal having two ends, one end being a connecting end for mating with a male connector or a gold finger circuit board, and the other end forming a crimping pin to be inserted into a drilling hole and connected with the signal layer; a high-frequency radiation area being formed in the vicinity of a connection between the crimping pin and the drilling hole when the connecting end is mated with the male connector or the gold finger circuit board; and a wave-absorbing material is disposed in a spatial scope covered by the high-frequency radiation area. By selectively disposing a wave-absorbing material in an area where a high-frequency radiation is easily generated during the use of the connector, crosstalk signals are absorbed, while normally transmitted electrical signals are kept, and an overall weight of the connector is light.

The technology of this application relates to a connector assembly including a metal housing, a conducting piece, a wire, and a shield layer. The metal housing includes a shield cavity. The conducting piece is accommodated in the shield cavity. The wire is partially located in the shield cavity and is electrically connected to one end of the conducting piece. The shield layer is wrapped around the wire. At least two electrical connecting parts are disposed on an outer surface of the shield layer. The at least two electrical connecting parts face different directions and are respectively electrically connected to parts, of the metal housing, that the at least two electrical connecting parts face, to reduce impact of crosstalk of the connector assembly. The connector assembly is intended to reduce impact of crosstalk of the connector assembly, to provide the connector assembly and the electronic device that meet an application requirement of 112 Gbps.

An electrical connector includes a differential signal pair. A portion of each terminal is disposed in an insulative housing and an electrically conductive shield extends around at least a portion of the terminals and a least a portion of the housing. The housing may have a lower surface and a projection extending downward from the lower surface between a portion of a vertical section of each of the terminals. The terminals may have an angled section including a vertical portion having a first width, an angled portion narrower than the vertical portion, and a horizontal portion narrower than the angled portion. The housing may have a housing mating component spaced from a housing body component and aligned with but spaced from the terminals. The terminals may have a planar termination section with a first portion wider than a second portion.

The present disclosure discloses a high-speed connector including an insulating body and a terminal module. The terminal module includes a number of terminal groups. Each terminal group includes a number of ground terminals, a number of signal terminals and a shielding piece. The ground terminal includes a ground pin. The signal terminal includes a signal pin. The shielding piece includes a number of convex portions and a number of surrounding portions. The ground pins and the signal pins are distributed in a staggered manner. At least one ground pin is in contact with the convex portion of the shielding piece. The surrounding portion surrounds the signal pins. When the ground pins and the signal pins are no longer in the same plane or the same row, the shielding piece can prevent cross-talk among signals, thereby improving the transmission quality.

A high-current high-frequency electrical connector receptacle applicable to network data transmission includes a receptacle housing and a socket tongue. The socket tongue is inserted into the receptacle housing in a front-rear direction, and a relative position thereof is locked. The socket tongue includes an upper terminal block, a lower terminal block and an insulating plastic body. The upper terminal block and the lower terminal block are both built in and fixed into the insulating plastic body. The receptacle housing is provided with a special-shaped fool-proofing unit.

A high-current high-frequency electrical connector receptacle applicable to network data transmission includes a receptacle housing and a socket tongue. The socket tongue is inserted into the receptacle housing in a front-rear direction, and a relative position thereof is locked. The socket tongue includes an upper terminal block, a lower terminal block and an insulating plastic body. The upper terminal block and the lower terminal block are both built in and fixed into the insulating plastic body. The receptacle housing is provided with a special-shaped fool-proofing unit.

A backplane connector includes a housing and a number of terminal modules. Each terminal module includes a number of conductive terminals, a metal shield surrounding member, a first metal shield and a second metal shield. The conductive terminal includes a mating portion and a tail portion. The conductive terminals include a first signal terminal and a second signal terminal. The metal shield surrounding member surrounds the mating portions of the first signal terminal and the second signal terminal. The first metal shield and the second metal shield are in contact with the metal shield surrounding member. As a result, the shielding area is increased and the shielding effect is improved.