A connection device for connecting an electrical or electronic component, which is accommodated in a thick-walled housing part, through a stepped bore in the wall of the housing part, includes a connection part having a stepped cylindrical body having a first cylindrical portion with a first outer diameter corresponding to the diameter of an inner bore portion of the stepped bore and a second cylindrical portion with a second outer diameter corresponding to the larger diameter of an outer bore portion, and a separate, essentially cylindrical contact carrier part fixed in the base body, which has contact pins protruding from an inner end face located on the inside of the thick-walled housing part. A fastener detachably fastens the connection part inserted in the stepped bore in the bore of the housing part.

An add-on housing for a plug-in connection is provided and includes a frame-like basic form, wherein fastening devices for fastening the add-on housing to a wall aperture are integrally formed within the frame-like basic form, wherein the add-on housing has at least one clamping element which can be captively clamped within the frame-like basic form, and wherein a holding frame or a contact insert can be fixed to the at least one clamping element. A method for fastening an add-on housing to a wall aperture is also provided, wherein: a frame-like basic form is fixed to the wall aperture by internal fastening devices; then, at least one clamping element, but preferably two clamping elements, is/are fixed within the frame-like basic form without tools; and a holding frame which is fitted with plug-in connector modules or a contact insert is then mounted onto the clamping elements and fixed thereto.

Provides is an assembly for sealing a juncture of a cable in a wall. The wall includes at least one aperture. The aperture is used for coupling a connector comprised in the cable. A cable end is provided with at least one flange. The flange surrounds at least in part the cable end. The assembly includes at least one strain relief element. The strain relief element is configured, once in a position to cooperate with the wall and the flange, to press, directly or indirectly, the flange against the wall when the connector is coupled while the strain relief element remains attached to the wall, so that the flange surrounds, directly or indirectly, the aperture and prevents, directly or indirectly, any foreign matter from passing the juncture of the cable at the aperture.

Provided is a connector mounting member that can be fixed to a vehicle body so as to generate no abnormal sound and that can stably hold various kinds of connectors. The connector mounting member includes a holding portion configured to hold a connector attached to an end of a long wire portion; and a mounting portion configured to mount the connector mounting member to a predetermined counterpart component. The holding portion includes a frame, opposing elastic portions that press-hold the connector therebetween, and opposing positioning portions that press-hold therebetween the wire portion extending from the connector on at least one opening side of the frame and that are less easily deformed than the opposing elastic portions.

The disclosed invention relates to a method of manufacturing a housing-integrated board mating connector, the method including: preparing a housing of an electrical device, the housing having a housing insertion hole formed therein and a part or the entirety of the housing being made of a conductive metal material; inserting a cylindrical ground gasket into the housing insertion hole; preparing a dielectric part and signal terminal part assembly in which a dielectric part surrounds a signal terminal part; and inserting the dielectric part and signal terminal part assembly into an inner circumferential surface of the ground gasket.

An electrical connector assembly includes a housing having a card slot at a mating end configured to pass through a panel opening of a panel forward of the panel for receiving a circuit card. A cable end of the housing is rearward of the panel. The electrical connector assembly includes contacts held in the housing. The electrical connector assembly includes cables terminated to the contacts and extending from the housing. The electrical connector assembly includes a connector mounting bracket having a collar surrounding a window receiving the housing. The connector mounting bracket has mounting latches extending from the collar with latch fingers configured to be coupled to the panel. The connector mounting bracket includes a biasing element configured to engage the panel to bias the panel against the mounting latches.

A mounting clip configured to secure a telecommunications connector in an opening of a plate, the telecommunications connector having a top, bottom and two sides, the mounting clip including a planar body having a portion configured to engage one side of the telecommunications connector; and at least one spring arm configured to contact the plate and apply a spring force against the plate to reduce movement of the mounting clip in the opening.

An electrical connector, for mounting to an electrical device which has a mating hole and a stepped portion located at a rear end of the mating hole to form a receiving space therebetween, includes: an insulative housing having a base portion and a tongue portion extending forwardly from the base portion; plural conductive contacts affixed to the insulative housing; a shielding plate affixed to the insulative housing; a shell attached to the insulative housing to form a mating room and adapted for assembling to the receiving space; and a sealer enclosing a front end of the shell and adapted for resisting against the stepped portion; wherein the tongue portion extends out of the mating room and stretches into the mating hole.

A connection structure of terminals according to the present invention includes an elastically-deformable first connector, to which a motor wire is electrically connected, an elastically-deformable second connector, to which a driving circuit wire is electrically connected, and a conductive portion, which electrically connects the first connector with the second connector. The first connector and the second connector are joined to the respective end surfaces of the conductive portion. The first connector is elastically deformed to hold the motor wire with its own restoring force. The second connector is elastically deformed to hold the driving circuit wire with its own restoring force.

A gasket for use with an electromagnetic interference (EMI) shielding cage for a connector includes a conductive body having an opening configured to receive a first end of the EMI shielding cage near a gasket mating wall incorporated on the EMI shielding cage. The conductive body has a first face designed to face away from the gasket mating wall, a second face designed to face the gasket mating wall, an inner perimeter and an outer perimeter. A plurality of engagement tabs are disposed along the outer perimeter and extend away from the first face. A plurality of spring tabs are disposed along the inner perimeter and extend away from the second face. When the first end of the EMI shielding cage is inserted into the opening of the conductive body and an opening of an optional complementary faceplate with the engagement tabs facing the faceplate and the spring tabs facing the gasket mating wall of the EMI shielding cage, the engagement tabs and the spring tabs cooperatively maintain a predefined separation distance D1 between the gasket mating wall and the optional complementary faceplate.