A method of manufacturing an electrical connector coupled to a counterpart connector is disclosed. The method includes: (a) disposing a plurality of signal terminals; (b) forming a first mold part to support the signal terminals through primary insert molding, the first mold part being formed to have a protrusion at one end thereof in a longitudinal direction of the electrical connector and a first groove at the other end thereof in the longitudinal direction of the electrical connector; (c) placing a fitting beside the first mold part; and (d) forming a second mold part to support the first mold part and the fitting through secondary insert molding, the second mold part being formed to surround the protrusion of the first mold part while filling the first groove.

An electrical connector set includes first and second connectors, in which the first connector has a first connection terminal, a first high-frequency connection terminal transmitting a high frequency signal, and a first external grounding member surrounding the first high-frequency connection terminal, the second connector has a second connection terminal, a second high-frequency connection terminal, and a second external grounding member surrounding the second high-frequency connection terminal. At a time of fitting, the second external grounding member is located on an inner side of the first external grounding member, the first and second connection terminals are located on an outer side of the first external grounding member, the second external grounding member is closed in a peripheral shape to surround the first and second high-frequency connection terminals, and first and second mounting parts are located on an inner side of the second external grounding member.

It is aimed to provide a terminal connection structure of a novel structure capable of advantageously preventing rotational displacements between two terminals without being accompanied by an increased spring force of a spring member. A terminal connection structure is provided with a first terminal 10 including a first connecting portion 32, a second terminal 12 including a second connecting portion 24, and a spring member 14 for sandwiching the first and second connecting portions 32, 24 in an overlapped state. At least one 44 of contact surfaces of the first and second connecting portions 32, 24 has a contact point portion 42 in the form of a curved surface bulging toward the other contact surface 30. The spring member 14 includes a pressing point 50 for pressing the first and second connecting portions 32, 24 in an overlapping direction at a position separated from the contact point portion 42.

It is aimed to provide a terminal connection structure of a novel structure capable of advantageously preventing rotational displacements between two terminals without being accompanied by an increased spring force of a spring member. A terminal connection structure is provided with a first terminal 10 including a first connecting portion 32, a second terminal 12 including a second connecting portion 24, and a spring member 14 for sandwiching the first and second connecting portions 32, 24 in an overlapped state. At least one 44 of contact surfaces of the first and second connecting portions 32, 24 has a contact point portion 42 in the form of a curved surface bulging toward the other contact surface 30. The spring member 14 includes a pressing point 50 for pressing the first and second connecting portions 32, 24 in an overlapping direction at a position separated from the contact point portion 42.

A terminal comprises an insert sheet connecting part and a cable connecting part. The insert sheet connecting part defines a slot sized to receive an insert sheet. The slot is delimited by a bottom wall, a top wall and two side walls. The two side walls are formed by upwardly bent extensions of left and right sides of the bottom wall. The top wall defines two top wall portions formed by inwardly bent portions of the two side walls respectively. The top wall includes a protrusion extending toward the bottom wall, and a reinforcing rib extending from one side wall to the corresponding top wall portion formed by bending the one side wall.

Provided is a connector having the smaller number of constituting components while ensuring strength and blocking property of a frame. The connector of the invention includes a frame and is capable of allowing a counter connector to be fitted in an inside of the frame, and the connector includes a lateral wall provided to the frame and surrounding the counter connector which is in a state of being fitted with the connector, a first terminal and a second terminal separately disposed at different positions in the inside of the frame, and a blocking portion disposed between the first terminal and the second terminal in the inside of the frame. The lateral wall is seamlessly continuous over an entire circumference of the frame, and the lateral wall and the blocking portion are formed of a single member and are integrated.

The present disclosure proposes a board-to-board connector terminal and a connector. The board-to-board connector terminal comprises: a male connector terminal including a first part; and a female connector terminal including a second part, wherein in the case of the male connector terminal and the female connector terminal adaptively installed, the male connector terminal is in contact with the female connector terminal; when the male connector terminal is detached from the female connector terminal, the second part abuts against the first part to prevent the male connector terminal being detached from the female connector terminal; in the case of the male connector terminal forcibly detached from the female connector terminal, the first part pushes the second part to cause the second part to be peeled off, such that the female connector terminal is damaged and does not work properly. With the above-mentioned technical solution, the first part cooperates with the second part to enable the female connector to be damaged after the male connector is detached from the female connector, thereby preventing multiple times of plugging of the connector.

The present disclosure proposes a board-to-board connector terminal and a connector. The board-to-board connector terminal comprises: a male connector terminal including a first part; and a female connector terminal including a second part, wherein in the case of the male connector terminal and the female connector terminal adaptively installed, the male connector terminal is in contact with the female connector terminal; when the male connector terminal is detached from the female connector terminal, the second part abuts against the first part to prevent the male connector terminal being detached from the female connector terminal; in the case of the male connector terminal forcibly detached from the female connector terminal, the first part pushes the second part to cause the second part to be peeled off, such that the female connector terminal is damaged and does not work properly. With the above-mentioned technical solution, the first part cooperates with the second part to enable the female connector to be damaged after the male connector is detached from the female connector, thereby preventing multiple times of plugging of the connector.

A connector assembly comprises a mating connector and a connector which is configured to be mounted on an object. The mating connector is mateable from above with the connector which is positioned below the mating connector in an up-down direction. The connector comprises a housing and a terminal. The terminal has a fixed portion, a held portion, a coupling portion, a supporting portion and a contact point. The coupling portion couples the fixed portion and the held portion with each other. The coupling portion has a receiving portion. The supporting portion extends from the held portion and is resiliently deformable. The supporting portion has an abutment portion. The abutment portion is positioned above the receiving portion in the up-down direction. The abutment portion is in contact with the receiving portion under a mated state where the connector and the mating connector are mated with each other.

A connector includes a connector body and a terminal attached to the connector body, the connector being fitted with a counterpart connector, the connector body includes a recess being fitted with a counterpart connector body of the counterpart connector and side walls extending in a longitudinal direction of the connector body, the side walls defining both sides of the recess. The terminal includes a plurality of terminals disposed along each of the side walls, and the plurality of terminals disposed along each of the side walls include one high frequency terminal and ground terminals disposed on both sides of the high frequency terminal. In plan view, a straight line connecting high frequency terminals disposed along both the side walls is inclined with respect to a center line of the connector body in a width direction, and a shield plate of the counterpart connector is extends along the center line.