Power adapters having a small-form factor, are capable of delivering a large amount of power, can charge multiple electronic devices, and can allocate power between the multiple electronic devices in an efficient manner.

An electrical connector for use with coaxial cables includes a plunger urged to protrude from a case by a spring.

An electrical connector for use with coaxial cables includes a plunger urged to protrude from a case by a spring.

A dense, high-speed interconnection may be formed with a mating header and receptacle connector. The header connector may have groups of mating contact portions extending from the connector housing. Structural projections may extend from the housing adjacent some or all of the groups of mating contact portions. The groups of mating contact portions may be signal and ground mating contact portions associated with a signal pair. The groups may be arranged in an array and the structural projections may be arranged in an array intercalated with the array of the groups of mating contact portions. A receptacle connector may include an array of apertures configured to receive the structural projections. The structural projections may be shaped and positioned to reduce damage to the mating contact portions of the header connector, enable reliable manufacture, and to provide a high-density mating interface.

A dense, high-speed interconnection may be formed with a mating header and receptacle connector. The header connector may have groups of mating contact portions extending from the connector housing. Structural projections may extend from the housing adjacent some or all of the groups of mating contact portions. The groups of mating contact portions may be signal and ground mating contact portions associated with a signal pair. The groups may be arranged in an array and the structural projections may be arranged in an array intercalated with the array of the groups of mating contact portions. A receptacle connector may include an array of apertures configured to receive the structural projections. The structural projections may be shaped and positioned to reduce damage to the mating contact portions of the header connector, enable reliable manufacture, and to provide a high-density mating interface.

A connector includes a connector main body having a wall portion and a shaft portion protruding from the wall portion; a pair of terminals which is relatively rotatable around the shaft portion and interposes a terminal of a counterpart connector; a torsion spring which has a coil, and a pair of arms protruding outward in a radial direction from the coil, is disposed between the pair of terminals in a state in which the shaft portion is inserted through the coil, and urges the pair of terminals in a rotational direction by the pair of arms; and guide portions which are provided in the connector main body, abut against the pair of arms when the torsion spring is pushed toward a proximal end side of the shaft portion, and guides the torsion spring between the pair of terminals, while elastically deforming the torsion spring.

A connector includes a connector main body having a wall portion and a shaft portion protruding from the wall portion; a pair of terminals which is relatively rotatable around the shaft portion and interposes a terminal of a counterpart connector; a torsion spring which has a coil, and a pair of arms protruding outward in a radial direction from the coil, is disposed between the pair of terminals in a state in which the shaft portion is inserted through the coil, and urges the pair of terminals in a rotational direction by the pair of arms; and guide portions which are provided in the connector main body, abut against the pair of arms when the torsion spring is pushed toward a proximal end side of the shaft portion, and guides the torsion spring between the pair of terminals, while elastically deforming the torsion spring.

A hybrid fiber optic/electrical connector including a connector body (111) having a front end (112) and a back end (113); a ferrule (510) mounted at the front end of the connector body, the ferrule including a depth that extends from a front end (171) to a rear end (173) of the ferrule; a spring (129) for biasing the ferrule (510) in a forward direction relative to the connector body (111); a plurality of optical fibers (175) supported by the ferrule (510), the optical fibers having end faces (106) accessible at the front end (171) of the ferrule; and electrical conductors (179) supported by the ferrule (510), the electrical conductors including spring-loaded contacts (163) accessible at the front end (171) of the ferrule.

A hybrid fiber optic/electrical connector including a connector body (111) having a front end (112) and a back end (113); a ferrule (510) mounted at the front end of the connector body, the ferrule including a depth that extends from a front end (171) to a rear end (173) of the ferrule; a spring (129) for biasing the ferrule (510) in a forward direction relative to the connector body (111); a plurality of optical fibers (175) supported by the ferrule (510), the optical fibers having end faces (106) accessible at the front end (171) of the ferrule; and electrical conductors (179) supported by the ferrule (510), the electrical conductors including spring-loaded contacts (163) accessible at the front end (171) of the ferrule.

The invention relates to a contact element, made of an electrically conductive contact material. In order to provide a contact element which can be passed repeatedly and non-destructively through a housing or a seal of a plug connector in and/or opposite to a direction of insertion (E), a contact element is provided comprising a body extending in the direction of insertion (E) and a position securing element disposed on an upper side of the body, projecting upwards out of an opening in the body transversely to the direction of insertion (E), and that can be deflected elastically, the position securing element having a slope surface that is inclined against the direction of insertion (E), adjoining which, without any kinks or edges, are a curved section and an end section, and the end section ending with a free end within the cubature of the body.