An electrical connector is provided. The electrical connector is to be attached to a cloth in which a conductive pattern is formed. The electrical connector includes an insulating housing having a boss portion provided on a surface of the housing, where the surface is to be in contact with the cloth, and the boss portion is inserted into the cloth; a connection terminal provided to the housing; and a conductive pad provided around the boss portion on the surface of the housing, where the surface is to be in contact with the cloth, and the conductive pad is electrically connected to the connection terminal. The conductive pad has a protrusion protruding in the same direction as the boss portion of the housing protrudes.

An electrical connector is provided. The electrical connector is to be attached to a cloth in which a conductive pattern is formed. The electrical connector includes an insulating housing having a boss portion provided on a surface of the housing, where the surface is to be in contact with the cloth, and the boss portion is inserted into the cloth; a connection terminal provided to the housing; and a conductive pad provided around the boss portion on the surface of the housing, where the surface is to be in contact with the cloth, and the conductive pad is electrically connected to the connection terminal. The conductive pad has a protrusion protruding in the same direction as the boss portion of the housing protrudes.

It is aimed to provide a connector capable of stably holding terminal fittings in a housing. A connector is provided with a housing and terminal fittings to be held in the housing. The housing includes a plurality of holes arranged in a lateral direction, the terminal fittings being arranged inside the holes, an upper wall surface and a lower wall surface constituting upper and lower regions above and below the plurality of holes arranged in the lateral direction on a rear surface of the housing, and interpolar walls partitioning between the holes adjacent in the lateral direction. Rear surfaces of the interpolar walls are located forward of the upper wall surface and the lower wall surface. The housing includes recesses, the rear surfaces of the interpolar walls serving as back surfaces of the recesses.

It is aimed to reduce friction resistance generated in a resilient contact portion. A shield connector is provided with a dielectric for accommodating an inner conductor, a tubular outer conductor for surrounding the dielectric, a resilient contact portion formed in the outer conductor, and a cut portion formed in the outer conductor and enabling a supporting portion supporting the resilient contact portion, out of the outer conductor, to be resiliently deformed. If the resilient contact portion contacts a mating outer conductor and is resiliently deformed, the supporting portion supporting the resilient contact portion is resiliently deformed by a reaction force from the mating outer conductor. Since a resilient deformation amount of the resilient contact portion is reduced by as much as the supporting portion is resiliently deformed, friction resistance generated in the resilient contact portion is reduced.

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.

Disclosed are an input/output terminal for connecting an electronic device to an external device and an electronic device comprising the input/output terminal, the input/output terminal comprising: a signal pin allowing signals to be transmitted/received between the electronic device and the external device; a ground pin connected to a ground part of the electronic device; and a resistant material disposed at the end part of the signal pin or the ground pin. Other various embodiments are possible.

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.

A terminal module (10) has a metal case (20) with a ceiling wall (21), a bottom wall (51) facing the ceiling wall (21), opposed side walls (23) extending from the ceiling wall (21) toward the bottom wall (51) and retaining pieces (24). A coil spring (40) is sandwiched between the ceiling wall (21) and the bottom wall (51). The retaining pieces (24) face each other in a direction perpendicular to a facing direction of the side walls (23) and project toward the bottom wall (51) from the periphery of the ceiling wall (21). The side walls (23) and the retaining pieces (24) are disposed alternately on the periphery of the ceiling wall (21). A spring receiving portion (26) formed by the ceiling wall (21), the side walls (23) and the retaining pieces (24) receives an end part of the coil spring (40) on the side of the ceiling wall (21).

Disclosed is a charging connector for a trolley having a power storage module, including a body carrying a circuit and a first electrode plate and a second electrode plate provided at two ends of the body respectively, the first electrode plate and the second electrode plate being electrically connected through the circuit and the first electrode plate or the second electrode plate having an elastic arch portion with a variable arch height. The charging connector can keep the elastic contact between the second electrode of a front charging connector and the first electrode of a rear charging connector during front-back series connection, eliminating the defect that the current charging connector has bad contact. The trolley with the connector can be charged reliably and the power energy can be used to a peripheral device onboard the trolley. Such a multimedia trolley does not need repeated manual checking.

Disclosed is a charging connector for a trolley having a power storage module, including a body carrying a circuit and a first electrode plate and a second electrode plate provided at two ends of the body respectively, the first electrode plate and the second electrode plate being electrically connected through the circuit and the first electrode plate or the second electrode plate having an elastic arch portion with a variable arch height. The charging connector can keep the elastic contact between the second electrode of a front charging connector and the first electrode of a rear charging connector during front-back series connection, eliminating the defect that the current charging connector has bad contact. The trolley with the connector can be charged reliably and the power energy can be used to a peripheral device onboard the trolley. Such a multimedia trolley does not need repeated manual checking.