An electrical contact for use with an electrical connector includes a conducting part and a supporting part wherein the conducting part has a better conduction characteristic than the supporting part while the supporting part has a better resiliency/strength characteristic than the conducting part. The conducting part includes a main body, an upper contacting arm extending upwardly from the main body and a lower contacting arm extending downwardly from the main body. The supporting part includes a secondary body, an upper supporting arm upwardly extending from the secondary body and a lower supporting arm downwardly extend from the secondary body. The main body and the secondary body are engaged together securely. The end of the upper contacting arm and that of the upper supporting arm are coupled together and the end of the lower contacting arm and that of the lower supporting arm are coupled together.

A card holder for use inside an electronic device is provided. The card holder includes a holder body and a plurality of electrical connectors. The holder body is disposed with a card slot matching a nano SIM card. The card slot is configured to accommodate the nano SIM card or a memory card having a same appearance or shape as the nano SIM card. At least some of the plurality of electrical connectors are first electrical connectors whose positions match the positions of electrical contact points in the nano SIM card. The first electrical connector is configured to electrically connect to the nano SIM card or the memory card accommodated in the card slot. The plurality of electrical connectors are configured to electrically connect to the memory card.

A method of manufacturing an electrical connector includes: providing a metal plate, and cutting the metal plate to form multiple base portions and pre-soldering areas; providing multiple conductive members, and soldering the conductive members to the pre-soldering areas; cutting and forming multiple elastic arms correspondingly according to locations of the conductive members in the pre-soldering areas as references, where a conductive terminal includes a base portion, at least one elastic arm and at least one conductive member; forming an insulating body on the conductive terminals by insert-molding, where the elastic arms and the conductive members are exposed from the insulating body; and forming the conductive terminals by cutting, where at least some of the conductive terminals are separated from each other and are not in contact with each other. The first electronic component and the second electronic component abut the elastic arms and the conductive members to deform and move.

A connector assembly includes a card connector and a first backplane connector. The card connector includes a first terminal module, a second terminal module and a circuit board card. The circuit board card connects the first terminal module and the second terminal module to form a receiving cavity. The first backplane connector is received in the receiving cavity. The present disclosure can make full use of space to improve space utilization of the connector assembly.

Providing a housing including an insulating material and a terminal integrated with the housing and including a conductive material, wherein the housing includes a protrusion extending in the longitudinal direction of the connector, the terminal includes a plate portion that extends in the vertical direction, the surface thereof exposed to one side surface of the protrusion; an opposing plate portion that extends in the vertical direction, the surface thereof exposed to another side surface of the protrusion; a coupling portion that couples the upper end of the plate portion and the upper end of the opposing plate portion; and a securing portion connected to the lower end of the plate portion, and a stepped portion is formed at the boundary of the surface of the plate portion and the surface of the coupling portion and the surface of the securing portion is covered by the insulating material.

An electronic card connector, defining an insertion direction, an ejection direction, and a transverse direction perpendicular to the insertion direction, includes an insulative housing and a number of terminals retained in the insulative housing. The terminals include a row of first contacts disposed along the insertion direction. Each first contact has a first affixed portion and a first contacting portion located at a peak therein. Each of the first contacts extends along the transverse direction. The first contacting portions of the neighboring first contacts are located offset along the insertion direction. The first contacting portions and associated first affixed portions of the first contacts are distanced differently in the transverse direction.

The present invention relates to a board connection assembly being characterized by comprising: a board connection pin for transmitting a signal; a dielectric portion having a first insertion hole into which the board connection pin is inserted; a housing having a trench into which a part of the dielectric portion is inserted and a second insertion hole into which the board connection pin is inserted; and a ground contact portion disposed between the housing and the dielectric portion to contact a ground electrode, wherein the ground contact portion has one side inserted into the trench so as to contact one surface of the trench, and the other side formed to be grounded with the ground electrode, and the height of the housing is configured to be smaller than the width of the housing.

A terminal of a connector has a receiving portion, a first supporting portion which is resiliently deformable and extends from the receiving portion, a contact portion supported by the first supporting portion, a second supporting portion extending from the contact portion and an abutment portion supported by the second supporting portion. In a connection process of the connector and a mating connector, the abutment portion of the terminal begins to be brought into contact with the receiving portion at a first position on the receiving portion, and it is slid on the receiving portion until the abutment portion reaches a second position. The contact portion is brought into contact with a mating terminal when the connector is connected to the mating connector.

A power plug includes a conductive module, a pin, an adapter terminal and a circuit board. The conductive module includes an injection-molded insulating body and a contact terminal secured to the insulating body during an injection molding process. The contact terminal includes a tail portion extending beyond the insulating body from one side of the insulating body and configured to be connected to the pin, and a contact portion extending beyond the insulating body from another side of the insulating body and configured to mate with the adapter terminal. The adapter terminal is electrically connected with the circuit board.

An arrangement for electrical contacting of a current connector (3) with a circuit arrangement (1) is provided. The current connector (3) includes at least one contact spring wire (5, 6) with an end contact (5a, 6a), which is configured for spring-loading, and the circuit arrangement (1) includes at least one contact point. The end contact (5a, 6a) and the contact point each form a spring pressure contact, and the end contact (5a, 6a) of the contact spring wire (5, 6) is configured as a bracket with an outer contact surface and at least one cutting edge arranged proximate the contact surface, which is engaged with the contact point.