A connector comprises a plurality of outer contacts including a first outer contact and a second outer contact that are slidably assembled together, a plurality of inner contacts disposed within the outer contacts, and a first elastic element disposed between the first outer contact and the second outer contact and adapted to exert a first axial pushing force onto the first outer contact. The second outer contact has an outer cylinder and an inner cylinder connected to the outer cylinder. A receiving groove having an annular cross section is defined between the outer cylinder and the inner cylinder. The first outer contact has an elastic latch adapted to be inserted into the receiving groove and adapted to be latched onto an inner wall of the outer cylinder.

An electrical terminal includes a terminal body, at least one interference lug, and at least one circuit connection part. The terminal body includes a front end and a back end in a longitudinal direction. The interference lug is arranged in parallel to the longitudinal direction and extends outwardly in a horizontal direction perpendicular to the longitudinal direction. The at least one circuit connection part is connected to the terminal body. An electrical connector is also provided, and the electrical connector includes a base and the electrical terminal. The base includes at least one installation trough, and a guiding groove is arranged in the at least one installation trough, the at least one interference lug is adapted to slide into the guiding groove, so as to guide and position the electrical terminal.

A connector and a connector assembly capable of being attached to a freely bendable object such as clothes when used are provided. The connector to be fit to a counterpart connector includes a housing; a conductive contact provided in the housing; and a plurality of holding members comprising a magnetic material provided in the housing. The holding member is configured to be attracted to a magnetic material of the counterpart connector when the connector is fit to the counterpart connector to maintain a fit state. The housing is bendable, and has a plurality of fixing holes formed therein. The holding members are disposed in parallel apart from each other in a longitudinal direction (X direction) in the surface of the housing.

High reliability is achieved with a protected state guaranteed for housings with reinforcing brackets being rigid to be free from displacement and misorientation. A connector includes: a connector body; a terminal installed in the connector body; and a reinforcing bracket fit to the connector body. The connector body includes a recess in which a mating connector body of a mating connector fits, and an insular part that is in the recess and fits in a groove part of the mating connector body. The reinforcing bracket includes an inner reinforcing bracket fit to an insular end part that is an end portion of the insular part in a longitudinal direction. The inner reinforcing bracket includes a body part that is disposed on an upper surface of the insular end part, an end plate that is connected to the body part and is disposed on an end surface of the insular end part, a pair of side plates that are connected to right and left ends of the body part and are disposed on right and left side surfaces of the insular end part, and a pair of connecting legs that are each connected to a lower end of a corresponding one of the side plates and extend outward in a right and left direction of the connector body.

A connecting method includes: arranging the connection terminal such that a rear surface of a base portion in a flat plate shape of the connection terminal comes into contact with a front surface of the flexible substrate; with a rising portion of the connection terminal extending from the rear surface side of the base portion toward the base portion and a tip end bending portion of the connection terminal extending from a tip end of the rising portion in a direction inclined with respect to the rising portion, displacing the rising portion toward the base portion so that the tip end bending portion protrudes from a front surface of the base portion; and holding a part of the flexible substrate between a pressing portion formed at the rising portion and a pressed portion formed at the base portion, whereby the conductive portion of the flexible substrate is electrically connected to at least one of the pressing portion and the pressed portion.

An electrical connector includes an insulating housing and a plurality of electrical terminals. A top wall of the insertion space defines a plurality of terminal grooves recessing upward. The plurality of electrical terminals are arranged in the plurality of the terminal grooves. Each of the plurality of the electrical terminals has a fixing portion. A middle of the fixing portion is of a hollow shape and is defined as a material reduction area. A front end of the fixing portion is connected with a contacting portion. A bottom of the fixing portion extends downward to form a guiding portion. A rear of the guiding portion is bent sideward and then is bent frontward to form a material increase area. two sides of the guiding portion are chamfered to form two chamfers. A bottom end of the guiding portion extends rearward to from a soldering portion.

A housing holds a contact. A shield member is held in the housing and blocks electromagnetic waves. The shield member has a tubular shape, and the contact is arranged therein. The housing has an outer housing portion that is arranged outside of the shield member, and an inner housing portion that is arranged inside the shield member. The housing also has a joining portion that integrally joins the outer housing portion and the inner housing portion in an end portion on one side in a direction that is parallel to the direction of mating with the partner connector.

A system and method for stabilizing a DIMM in a DIMM connector so as to reduce wear related electrical disconnections therebetween. A base is disposed between adjacent DIMM connectors and is coupled to the motherboard. A cap engages a top edge of a plurality of DIMMs and an adjustable force is applied to the top of the DIMMS by turning a screw which extends from the cap into the base.

High reliability is achieved with a protected state guaranteed for housings with reinforcing brackets being rigid to be free from displacement and misorientation. A connector includes: a connector body; a terminal installed in the connector body; and a reinforcing bracket fit to the connector body. The connector body includes a recess in which a mating connector body of a mating connector fits, and an insular part that is in the recess and fits in a groove part of the mating connector body. The reinforcing bracket includes an inner reinforcing bracket fit to an insular end part that is an end portion of the insular part in a longitudinal direction. The inner reinforcing bracket includes a body part that is disposed on an upper surface of the insular end part, an end plate that is connected to the body part and is disposed on an end surface of the insular end part, a pair of side plates that are connected to right and left ends of the body part and are disposed on right and left side surfaces of the insular end part, and a pair of connecting legs that are each connected to a lower end of a corresponding one of the side plates and extend outward in a right and left direction of the connector body.

A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.