A connector C is provided with a housing 30 formed with a through hole 39, a rubber plug 60 to be arranged inside the housing 30 and formed with a sealing hole 61, and a dummy plug 10 to be arranged from the through hole 39 to the sealing hole 61. The housing 30 includes recesses 43 open in an inner surface of the through hole 39. The dummy plug 10 includes a plug body 11 to be arranged in the sealing hole 61, an extending portion 12 continuously extending from the plug body 11 and to be arranged in the through hole 39, and protrusions 16 projecting from an outer peripheral surface of the extending portion 12 and arranged to be press-fit into the recesses 43.

Provided is a connector assembly capable of suppressing deformation and breakage of a connector that may occur when one of connectors displaces in a connector fitting state. The connector assembly is configured such that a first connector is fitted with a second connector, with one of the first connector and the second connector entering an inside of another, the first connector includes a projection portion that projects to a side on which the second connector is disposed in a fitting direction of the first connector and the second connector, the second connector includes a restriction portion that restricts displacement of the second connector in an intersecting direction intersecting the fitting direction, and, in a state where the first connector is fitted with the second connector, the restriction portion contacts the projection portion in the intersecting direction to restrict displacement of the second connector.

An insulating housing and a wire-end connector including the insulating housing are provided. The insulating housing includes a body portion, a power mating portion, a signal mating portion, and a snap-fit member. The body portion has a first surface and a second surface that are oppositely disposed, and a third surface and a fourth surface that are oppositely disposed. A plurality of first channels are formed along a first direction inside the body portion in a horizontal and parallel arrangement. The power mating portion is disposed on the second surface and includes a plurality of pillars, and the first channels penetrate the plurality of pillars, respectively. The signal mating portion is disposed on the third surface and has a fifth surface and a sixth surface that are oppositely disposed, and a plurality of second channels are formed therein along the first direction.

A cable connector and a connector assembly including the cable connector are provided. The cable connector includes a plastic main body, a contact body and a cable. A cavity is formed in the plastic main body. The contact body is fixed on the plastic main body and extends into the cavity. The cable is fixed on the plastic main body. One end of the cable is inserted into the plastic main body and is electrically connected to the contact body in the cavity, and an electrically connected portion is exposed in the cavity. The electrically connected portion between the cable and the contact body is exposed in the cavity, so that a clearance is formed at the welding spots between the cable and the contact body and is not injection-moulded by the internal mould, which reduces the attenuation of the cable and greatly improves the signal integrity of the product.

A cable connector and a connector assembly including the cable connector are provided. The cable connector includes a plastic main body, a contact body and a cable. A cavity is formed in the plastic main body. The contact body is fixed on the plastic main body and extends into the cavity. The cable is fixed on the plastic main body. One end of the cable is inserted into the plastic main body and is electrically connected to the contact body in the cavity, and an electrically connected portion is exposed in the cavity. The electrically connected portion between the cable and the contact body is exposed in the cavity, so that a clearance is formed at the welding spots between the cable and the contact body and is not injection-moulded by the internal mould, which reduces the attenuation of the cable and greatly improves the signal integrity of the product.

A multifunctional high-voltage connector and a battery product are disclosed. The multifunctional high-voltage connector includes: a fuse, a socket, and a plug. The socket includes a base and a socket terminal. The plug includes a seat and a plug terminal. The base includes: a first main body portion; a first accommodating portion, protruding from the first main body portion; and a second accommodating portion, protruding from the first main body portion and provided to be spaced apart from the first accommodating portion. The fuse is accommodated in the first accommodating portion. At least a part of the socket terminal is accommodated in the second accommodating portion. The seat of the plug is inserted into the second accommodating portion of the base.

A multifunctional high-voltage connector and a battery product are disclosed. The multifunctional high-voltage connector includes: a fuse, a socket, and a plug. The socket includes a base and a socket terminal. The plug includes a seat and a plug terminal. The base includes: a first main body portion; a first accommodating portion, protruding from the first main body portion; and a second accommodating portion, protruding from the first main body portion and provided to be spaced apart from the first accommodating portion. The fuse is accommodated in the first accommodating portion. At least a part of the socket terminal is accommodated in the second accommodating portion. The seat of the plug is inserted into the second accommodating portion of the base.

An injection-molded support has a contact chamber adapted to receive a contact partner, a fixed seal part, a movable seal part shiftable relative to the fixed seal between an open position spaced therefrom and a closed position closely juxtaposed therewith, and a break point holding the movable seal part in the open position and frangible for movement of the movable seal part into the closed position. A cable end fitted between the seal parts into the chamber is clamped when the movable seal part is then moved from the open into the closed position with rupturing of the break element and is held in form-fitting clamping engagement of the cable end between the seal parts. Finally the cable end is overmolded with molding compound to the contact body outside the contact chamber while blocking entry of the compound by the seal parts into the contact chamber.

A wafer includes a number of conductive terminals and an insulating frame. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. Each conductive terminal includes a connection portion and a contact portion. The connection portions of the differential signal terminals, the first ground terminal and the second ground terminal are located in a first plane. The first ground terminal includes a first torsion portion and the second ground terminal includes a second torsion portion. The contact portion of the first ground terminal and the contact portion of the second ground terminal are both perpendicular to the first plane. This present disclosure can provide better shielding effect, reduce crosstalk and improve the quality of signal transmission. In addition, the present disclosure also relates to a backplane connector having the wafer.

A wafer includes a number of conductive terminals and an insulating frame. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. Each conductive terminal includes a connection portion and a contact portion. The connection portions of the differential signal terminals, the first ground terminal and the second ground terminal are located in a first plane. The first ground terminal includes a first torsion portion and the second ground terminal includes a second torsion portion. The contact portion of the first ground terminal and the contact portion of the second ground terminal are both perpendicular to the first plane. This present disclosure can provide better shielding effect, reduce crosstalk and improve the quality of signal transmission. In addition, the present disclosure also relates to a backplane connector having the wafer.