An electrical plug connector, having an insulating part and an inner-conductor contact element pair for differential signal transmission. The inner-conductor contact element pair comprises first and second inner-conductor contact elements, which extend through the insulating part. The inner-conductor contact elements, proximate a first end of the insulating part, have a contact section for contacting an inner conductor of a corresponding counterpart plug connector and proximate a second end of the insulating part, have a press-in pin for pressing into a metal-plated recess of an electrical assembly. The inner-conductor contact elements each have one support shoulder via which a pressing-in force can be introduced for pressing the press-in pin into the metal-plated recess. The support shoulder is along the central axis of the inner-conductor contact element. The inner-conductor contact elements each have a support surface averted from the support shoulder to support the inner-conductor contact element in the insulating part.

A connector includes a female terminal module and a male terminal module that is to be coupled to the female terminal module. The female terminal module includes a female-side inner conductor, a female-side derivative, and a female-side outer conductor. The female-side outer conductor receives therein the female-side inner conductor via the female-side derivative. The male terminal module includes a male-side inner conductor, a male-side derivative, and a male-side outer conductor. The male-side outer conductor receives therein the male-side inner conductor via the male-side derivative and is connected to the female-side outer conductor. The female-side fitting portion of the female-side derivative and the male-side fitting portion of the male-side derivative are fitted to each other with recess-protrusion fitting. The male-side inner conductor includes a male connection portion and the male connection portion is inserted in the female-side fitting portion and connected to the female-side inner conductor.

A connector includes a female terminal module and a male terminal module that is to be coupled to the female terminal module. The female terminal module includes a female-side inner conductor, a female-side derivative, and a female-side outer conductor. The female-side outer conductor receives therein the female-side inner conductor via the female-side derivative. The male terminal module includes a male-side inner conductor, a male-side derivative, and a male-side outer conductor. The male-side outer conductor receives therein the male-side inner conductor via the male-side derivative and is connected to the female-side outer conductor. The female-side fitting portion of the female-side derivative and the male-side fitting portion of the male-side derivative are fitted to each other with recess-protrusion fitting. The male-side inner conductor includes a male connection portion and the male connection portion is inserted in the female-side fitting portion and connected to the female-side inner conductor.

Provided is a connector with which it is possible to suppress increases in manufacturing cost and to adjust transmission characteristics. The connector comprises: a housing (10) having an accommodation section (11) and attachment parts (12, 13, 14, 15); a terminal fitting (40) accommodated in the accommodation section (11); and shield members (50, 51) attached to the attachment parts (12, 13, 14, 15), the shield members (50, 51) shielding electromagnetic waves. The attachment parts (12, 13, 14, 15) are provided in a plurality of positions at differing distances from the accommodation section (11). For example, the attachment parts (12, 13, 14, 15) form a groove shape, one end thereof opening on one surface of the housing (10).

Provided is a connector with which it is possible to suppress increases in manufacturing cost and to adjust transmission characteristics. The connector comprises: a housing (10) having an accommodation section (11) and attachment parts (12, 13, 14, 15); a terminal fitting (40) accommodated in the accommodation section (11); and shield members (50, 51) attached to the attachment parts (12, 13, 14, 15), the shield members (50, 51) shielding electromagnetic waves. The attachment parts (12, 13, 14, 15) are provided in a plurality of positions at differing distances from the accommodation section (11). For example, the attachment parts (12, 13, 14, 15) form a groove shape, one end thereof opening on one surface of the housing (10).

A contact device includes a first contact element extending along a straight line and a second contact element inclined with respect to the first contact element. The first contact element has a connecting body extending along the straight line, a first contact portion, and a flap. The first contact portion has a first contact socket. The flap is connected to a first fixed end at a first side of the connecting body. The first contact portion is connected to the connecting body. The flap extends along the first straight line to the first contact portion and a free end of the flap is arranged at a distance from the first contact portion. The second contact element has a second contact portion engaging the first contact socket and electrically contacting the first contact portion.

A backplane connector includes a housing, a number of terminal modules assembled to the housing, and a mounting block. The housing includes a base, a first side wall and a second side wall. Each terminal module includes a first signal terminal and a second signal terminal. The first signal terminal has a first mounting foot, and the second signal terminal has a second mounting foot. The housing includes a receiving groove at a bottom end of the base. The mounting block is received in the receiving groove. The mounting block is made of electroplated plastic. The mounting block has an opening for the first mounting foot and the second mounting foot to extend through. As a result, the backplane connector has a better shielding effect.

The sleeve is crimped to the outer periphery of the braid, the braid is folded back by the folding-back portion at the front end side of the sleeve, the folded-back braid covers the outer periphery of the sleeve, the braided crimping piece of the shield terminal is crimped to the outer periphery of the sleeve via the folded-back braid, the folded-back braid is held between the sleeve and the braid crimping piece, the sheath crimping piece is crimped to the outer periphery of the sheath, and when a tensile force is applied in the direction in which the cable is relatively separated from the shield terminal, the sleeve is moved in the tensile direction, so that the rear end edge of the sleeve and the front end edge of the sheath crimping piece are brought into abutment with each other.

The sleeve is crimped to the outer periphery of the braid, the braid is folded back by the folding-back portion at the front end side of the sleeve, the folded-back braid covers the outer periphery of the sleeve, the braided crimping piece of the shield terminal is crimped to the outer periphery of the sleeve via the folded-back braid, the folded-back braid is held between the sleeve and the braid crimping piece, the sheath crimping piece is crimped to the outer periphery of the sheath, and when a tensile force is applied in the direction in which the cable is relatively separated from the shield terminal, the sleeve is moved in the tensile direction, so that the rear end edge of the sleeve and the front end edge of the sheath crimping piece are brought into abutment with each other.

A circuit board for a high speed communication jack including a rigid circuit board in the housing having a substrate, a plurality of vias extending through the substrate with each via being configured to accommodate a pin on the housing, a plurality of traces on a middle layer in the substrate, with each trace extending from a corresponding one of the plurality of vias, a first shielding layer on a first side of the middle layer in the substrate, a second shielding layer on a second side of the middle layer in the substrate, and a third shielding layer adjacent to the second shielding layer.