This shield connector is provided with an inner conductor (15), a dielectric body (19) that accommodates the inner conductor (15), and an outer conductor (18) that encloses the dielectric body (19). The dielectric body (19) comprises a stopper section (34) that abuts the outer conductor (18) and stops movement of the dielectric body (19) along a wall surface of the outer conductor (18). Positional offset of the dielectric body (19) with respect to the outer conductor (18) can be prevented due to the stopper section (34) abutting the outer conductor (18).

This shield connector is provided with an inner conductor (15), a dielectric body (19) that accommodates the inner conductor (15), and an outer conductor (18) that encloses the dielectric body (19). The dielectric body (19) comprises a stopper section (34) that abuts the outer conductor (18) and stops movement of the dielectric body (19) along a wall surface of the outer conductor (18). Positional offset of the dielectric body (19) with respect to the outer conductor (18) can be prevented due to the stopper section (34) abutting the outer conductor (18).

A shunt device is used to be mated with an adapter socket of a connector configured on a circuit board to shunt electric current of the connector. The shunt device includes an insulating housing and a first electric terminal. The insulating housing has a bottom surface. The first electric terminal is fixed on the insulating housing. The first electric terminal has a first contact portion and a first leg that extends out of the insulating housing from the first contact portion, so as to provide a first cable connection surface for being connected to at least one wire cable. The first contact portion is exposed from the bottom surface and has a contact surface that is parallel to the bottom surface, so as to abut against a shunt contact surface of the adapter socket.

A shunt device is used to be mated with an adapter socket of a connector configured on a circuit board to shunt electric current of the connector. The shunt device includes an insulating housing and a first electric terminal. The insulating housing has a bottom surface. The first electric terminal is fixed on the insulating housing. The first electric terminal has a first contact portion and a first leg that extends out of the insulating housing from the first contact portion, so as to provide a first cable connection surface for being connected to at least one wire cable. The first contact portion is exposed from the bottom surface and has a contact surface that is parallel to the bottom surface, so as to abut against a shunt contact surface of the adapter socket.

A connector 10 is provided with a terminal 20 to be connected to a front end part of a wire 11 extending in a front-rear direction, a connector housing 40 including an accommodating portion 41 for accommodating the terminal 20, and a rear holder 50 to be mounted on a rear end part of the connector housing 40. The rear holder 50 is formed with an insertion hole 61 extending along an extending direction of the wire between a communication opening 61A communicating with the accommodating portion 41 and a rear opening 61B open to outside in a rear end part of the rear holder 50. A guiding inclined surface 62 for reducing a hole diameter of the insertion hole 61 toward the communication opening 61A is provided on a wall surface of the insertion hole 61.

A connector 10 is provided with a terminal 20 to be connected to a front end part of a wire 11 extending in a front-rear direction, a connector housing 40 including an accommodating portion 41 for accommodating the terminal 20, and a rear holder 50 to be mounted on a rear end part of the connector housing 40. The rear holder 50 is formed with an insertion hole 61 extending along an extending direction of the wire between a communication opening 61A communicating with the accommodating portion 41 and a rear opening 61B open to outside in a rear end part of the rear holder 50. A guiding inclined surface 62 for reducing a hole diameter of the insertion hole 61 toward the communication opening 61A is provided on a wall surface of the insertion hole 61.

A terminal fitting is provided with a tubular connecting portion and a deflectable and deformable resilient contact portion arranged in the connecting portion. The connecting portion includes a bead extending in a front-rear direction and projecting inward toward a contact point of the resilient contact portion on a base wall portion facing the contact point. An outer surface of the base wall portion includes recesses recessed inwardly in both front and rear end parts of the bead, and a shorting terminal facing portion located outwardly of bottoms of the recesses between the both front and rear end parts of the bead.

A connector housing comprises an inner housing including a rear housing, and a first sub housing and a second sub housing each formed integrally with the rear housing. The first sub housing is sized to accommodate a first cable assembly, and includes a rear end connected to a front side of the rear housing. The second sub housing is sized to accommodate a second cable assembly and a third cable assembly. A rear end of the second sub housing is connected to the front side of the rear housing. The first sub housing and the second sub housing are arranged side by side.

A connector housing comprises an inner housing including a rear housing, and a first sub housing and a second sub housing each formed integrally with the rear housing. The first sub housing is sized to accommodate a first cable assembly, and includes a rear end connected to a front side of the rear housing. The second sub housing is sized to accommodate a second cable assembly and a third cable assembly. A rear end of the second sub housing is connected to the front side of the rear housing. The first sub housing and the second sub housing are arranged side by side.

A wire-clamping connector assembly includes a wire-clamping connector and a mating connector that are mated with each other. The wire-clamping connector includes a casing and a conductive cable. The casing includes a first wire-fixing portion, a second wire-fixing portion, and a third wire-fixing portion that is located therebetween. A first gap is formed between the first wire-fixing portion and the third wire-fixing portion, and a second gap is formed between the second wire-fixing portion and the third wire-fixing portion. The conductive cable includes a conductive cable body and insulating bodies that cover the conductive cable body. The conductive cable passes through the first gap and the second gap, such that a third extension section is surroundingly arranged below the third wire-fixing portion. An extension direction of the conductive cable is perpendicular to a mating direction of the mating connector and the wire-clamping connector.