The utility model discloses an electrical connector for Christmas lamp trees which comprises an upper and a lower connecting base, first columnar electrodes and elastic devices are arranged in the upper connecting base, second arc-shaped electrodes are arranged in the lower connecting base, and the elastic devices cause the first electrodes to tightly abut against the second electrodes. The first columnar electrodes and the second arc-shaped electrodes form a point-to-surface contact, so that the reliability of electrical connection is increased greatly, allowing a Christmas lamp tree to be universal to high and low voltages. Moreover, sufficient contact between upper and lower layers and natural effect of the Christmas lamp tree can still be ensured even if the Christmas lamp tree is subjected to an external force, and multiple sets of first and second electrodes are electrically connected in one-to-one correspondence, leading to diversified functions of the Christmas lamp tree.

An electrical connector includes an insulative housing enclosing a plurality of terminals and enclosed within a metallic shell. The shell forms a receiving cavity in which said housing is retained. The shell includes opposite top and bottom plates with a plurality of spring tangs split therefrom and extending into the receiving cavity. A top extension unitarily extends rearwardly from a front edge of the top plate and includes a front stationary base section intimately positioned upon the top plate, and a rear deflectable section including a plurality of spring fingers rearwardly extending from a rear end of the front base section in an oblique manner away from the top plate. The front base section forms a plurality of openings corresponding to free ends of the spring tangs for accommodating the corresponding free ends, respectively.

Provided is a terminal fitting and a connector with which the amount of insertion of the terminal fitting into a housing can be easily controlled. A terminal fitting includes: a tubular connection portion (41); a locking protrusion (51) that is provided so as to protrude from an outer circumferential surface side of the tubular connection portion (41), and is configured to be locked to a groove (66) provided in a housing (60); and a contact-stopper protrusion (55) that is provided on the outer circumferential surface side of the tubular connection portion (41) so as to protrude from mating edges (49) that abut against each other in a circumferential direction thereof in the tubular connection portion (41), and is configured to come into contact with the housing (60) and stop in place.

A plug comprising: a plurality of pins or a plurality of sockets; a body portion housing the plurality of pins or the plurality of sockets and the body portion extending parallel to a longitudinal axis of the plurality of pins or the plurality of sockets; a connection section connected to the body portion and extending from the body portion at an obtuse angle; and a cord connected to an end of the connection section; wherein the body portion and the connection section are connected at a joint and the joint includes a sub-flush radius on an underside of the joint.

A ganged connector assembly includes: a plurality of coaxial connectors, each of the coaxial connectors connected with a respective coaxial cable extending rearwardly therefrom, each of the coaxial connectors including an inner contact and an outer body that is electrically separated from the inner contact; a shell having a plurality of cavities; and a plurality of rear bodies, each of the rear bodies encircling a respective outer body, each of the rear bodies mounted in a respective cavity of the shell. Each of the rear bodies includes a first locking feature. A second locking feature is located in each of the cavities and is fixed relative to the shell. The first and second locking features are configured such that rotation of a first of the plurality of rear bodies relative to the shell moves the first rear body between locked and unlocked positions, wherein in the locked position a respective first connector and respective first cable are secured with the shell within a respective cavity, and in the unlocked position the first connector and first cable can be removed from the shell without removing the remaining connectors and cables.

A storage device is provided. The storage device includes a first connector, a second connector, and a memory circuit. The first connector is selectively electrically connected to a first electronic device. The second connector is selectively electrically connected to a second electronic device. The memory circuit is disposed between the first connector and the second connector. When the first connector is electrically connected to a first electronic device and the second connector is electrically connected to a second electronic device, the second connector is switched to a charge mode from a device mode, so that the first electronic device charges the second electronic device through the storage device, the second electronic device does not provide power to the storage device through the storage device, and the first electronic device accesses data in the storage device through the first connector.

An electrical connector includes: a contact module including an insulative housing and an upper and lower rows of contacts, the insulative housing having a base and a tongue; a shielding shell enclosing the contact module and having a pair of soldering legs; an insulative outer cover enclosing the shielding shell; and a pair of brackets insert-molded with the outer cover; wherein each of the pair of brackets is locked to the insulative housing to prevent a corresponding soldering leg from moving outwardly.

An electrical connector includes an insulative housing, a number of conductive terminals affixed to the insulative housing, a shielding shell enclosing the insulative housing; and a sealer. The insulative housing includes a base portion and a tongue portion extending forwardly from the base portion. Each conductive terminal includes a contacting portion exposed to the tongue portion. The shielding shell includes a number of locking grooves penetrating rearward and a number of tubers and each sandwiched between two locking grooves. The sealer seals a rear end of the shielding shell. The sealer includes a number of tubers corresponded with the locking grooves of the shielding shell and a number of locking grooves receiving the tubers of the shielding shell.

An electrical connector includes: a contact module comprising an insulative housing having a base portion and a tongue portion, and a number of conductive terminals affixed to the insulative housing and each comprising a contacting portion exposed to a surface of the tongue portion, a soldering portion and a connecting portion connecting the contacting portion and the soldering portion; and a metal shell comprising a pair of locking grooves depressed forwardly from a rear surface thereof; wherein the insulative housing comprises a pair of mounting portions located at two lateral sides of a rear end thereof, the mounting portions are stuck in the locking grooves when the contact module is assembled to the metal shell along a rear-to-front direction, and a lower portion of each mounting portion is resisted against the rear surface of the metal shell.

An electrical plug connector includes a plug metal shell, an insulation housing bracket, a plug grounding contact, and a grounding member. The plug metal shell encloses a tongue portion of the insulation housing bracket. The plug grounding contact is held inside the insulation housing bracket. The grounding member is disposed between the plug metal shell and the plug grounding contact and spaced from the first side of the insulation housing bracket. A connecting portion is selectively disposed on the grounding member or on the plug grounding contact. The connecting portion mechanically contacts to the grounding member and the plug grounding contact such that the grounding member is electrically connected to the plug grounding contact.