In a connector assembly in which a connector that includes a first terminal, a second terminal, a ground terminal including a shielding portion (plate portion) positioned between the first terminal and the second terminal, and a shell having conductivity and a frame-like shape and a mating connector that includes a first mating terminal and a second mating terminal that are connected with the first terminal and the second terminal respectively, a mating ground terminal including a mating shielding portion (mating plate portion) positioned between the first mating terminal and the second mating terminal, and a mating shell having conductivity and a frame-like shape are fitted to each other, the ground terminal and the shell are integrally formed through bending processing for metal plate. The ground terminal and the mating ground terminal are connected with each other through elastic contact between the shielding portion and the mating shielding portion.

A mating module includes a conductive terminal, a cable, a first metal shield member and a second metal shield member. The cable includes a core electrically connected to the conductive terminal, an insulating layer wrapped on the core, and a shielding layer wrapped on the insulating layer. The first metal shield member includes a first mounting piece. The second metal shield member includes a second mounting piece. The cable further includes a protruding piece connected to the shielding layer. The protruding piece is directly or indirectly clamped by the first mounting piece and the second mounting piece. As a result, the shielding effect of the mating module is improved. The present disclosure also relates to a cable connector having the mating module.

A mating module includes a conductive terminal, a cable, a first metal shield member and a second metal shield member. The cable includes a core electrically connected to the conductive terminal, an insulating layer wrapped on the core, and a shielding layer wrapped on the insulating layer. The first metal shield member includes a first mounting piece. The second metal shield member includes a second mounting piece. The cable further includes a protruding piece connected to the shielding layer. The protruding piece is directly or indirectly clamped by the first mounting piece and the second mounting piece. As a result, the shielding effect of the mating module is improved. The present disclosure also relates to a cable connector having the mating module.

A cable connector includes an outer shell having a bore extending between a mating end and a cable end. The outer shell has latch pockets. The cable connector includes a shield received in the outer shell that divides the bore into chambers. The cable connector includes contact holders received in corresponding chambers. Each contact holder includes at least one contact channel and a deflectable latch having a latching head at a distal end of the latch configured to be received in the corresponding latch pocket of the outer shell to axially secure the contact holder in the outer shell. The latch has an interference bump at an inner end of the latch configured to engage the shield to press the latching head of the latch outward. The cable connector includes contacts received in corresponding contact channels of the corresponding contact holders.

A cable connector includes an outer shell having a bore extending between a mating end and a cable end. The outer shell has latch pockets. The cable connector includes a shield received in the outer shell that divides the bore into chambers. The cable connector includes contact holders received in corresponding chambers. Each contact holder includes at least one contact channel and a deflectable latch having a latching head at a distal end of the latch configured to be received in the corresponding latch pocket of the outer shell to axially secure the contact holder in the outer shell. The latch has an interference bump at an inner end of the latch configured to engage the shield to press the latching head of the latch outward. The cable connector includes contacts received in corresponding contact channels of the corresponding contact holders.

A connector, a connector assembly, and an electronic device are provided to improve crosstalk phenomenon between signals and optimize signal transmission performance. The connector includes a plurality of first terminal modules arranged in an array manner, where the first terminal module includes a shielding unit and a first signal terminal, and the shielding unit includes a plurality of shielding boards that are sequentially connected to form a shielding cavity. A first surface of the shielding board back to the shielding cavity is used to cooperate with a peer shielding board of a paired connector, and a contact unit protruding from the first surface is further disposed on the shielding board. The contact unit is configured to electrically connect to the peer shielding board of the paired connector, and the first signal terminal is located in the shielding cavity.

A long body winding structure is provided with a long body and a reel. The long body includes a plurality of terminal modules arranged in parallel in a first direction, a first member, a second member and a third member. Each terminal module includes a plurality of first terminals arranged in parallel in the first direction and a dielectric member covering the plurality of first terminals. Each first terminal is an L-shaped rod-like piece including a first end part, a second end part and a first bent portion. The dielectric member covers the plurality of first terminals such that the first and second end parts of each first terminal are exposed. The first member is a strip-like member coupling adjacent ones of the first end parts to link the plurality of terminal modules.

An electrical connector includes a housing having a base portion and a tongue portion, two rows of terminals having signal terminals and ground terminals, a grounding member, and a metal shell. The grounding member is formed by bending a metal plate to have two long plates with fingers in contact with corresponding ground terminals. The base body defines a mating face and an outer face. A positioning groove is formed between a first side plate and the outer wall face. The metal shell is provided with an inner plate of which the lower edge is cut into a specific shape to form a locking edge. The metal shell has an inner shell and an outer shell.

A backplane connector includes a housing and a number of wafers assembled to the housing. Each wafer includes a number of conductive terminals, an insulating frame and a metal shield. The housing includes an insulating housing and a metal shell fixed to the insulating housing. The insulating housing includes a number of slots for positioning the wafers. The metal shell is provided with a mating surface and a number of terminal receiving grooves. The contact portions of the conductive terminals are exposed in the corresponding terminal receiving grooves. The present disclosure improves the structural strength of the backplane connector and reduces the risk of damage the mating surface due to the push or collision of a mating connector.

A backplane connector includes a housing and a number of wafers assembled to the housing. Each wafer includes a number of conductive terminals, an insulating frame and a metal shield. The housing includes an insulating housing and a metal shell fixed to the insulating housing. The insulating housing includes a number of slots for positioning the wafers. The metal shell is provided with a mating surface and a number of terminal receiving grooves. The contact portions of the conductive terminals are exposed in the corresponding terminal receiving grooves. The present disclosure improves the structural strength of the backplane connector and reduces the risk of damage the mating surface due to the push or collision of a mating connector.