A self-locking connector provides an electrical connection between sources, equipment, devices, and the like. The self-locking connector generally includes first and second connector components with first and second housings that include corresponding electrically conductive elements, first and second magnetic elements, and first and second lock elements. One housing includes stationary and movable housing components. The connector components are brought into a coupled state with the corresponding electrically conductive elements providing an electrical connection. As the connector components are brought into the coupled state, the movable housing component automatically moves and brings the locking elements into locked engagement. The magnetic elements urge the connector components in the coupled state and the locking elements in locked engagement. The movable housing component is manually moved to bring the lock components out of locked engagement and the connector components out of the coupled state to break the electrical connection.

An example port protector includes a plug housing including an exterior surface and an interior surface, the plug housing sized to mate with a data communication port of an electronic device. The port protector also includes an opening extending from the exterior surface to the interior surface. The port protector further includes a storage container disposed within the plug housing, the storage container to release an adhesive agent via the opening based on an interaction between the plug housing and the data communication port.

A plug connector having two housings and a locking clip and a catch for locking and unlocking the two housings is provided, wherein the locking clip is rotatably mounted on one of the two housings. The catch comprises at least one part and is arranged on the locking clip. It has a folded-out position and a folded-in position. In addition, the catch has at least one articulated connection and is formed in the shape of a Z-beam or Z-support. The catch prevents inadvertent opening and closing of the locking clip with simultaneously simple handling for the user. Methods for locking and unlocking a plug connection are also provided. The catch 2 when folded down (FIG. 1) blocks the locking clip 1 against movement to an unlocked position. The catch 2 when folded upward (FIG. 2) permits free motion of the locking clip 1 to the unlocked position to permit separation of the housings.

A locking structure is provided for a telecommunication connector and includes a pull resistant section, which has a front end forming an engagement section connected to a connection surface that is connected to a spring arm, which is provided with a projection; a locking section, which is a U-shaped configuration; and a connection section, which connects the pull resistant section and the locking section and is formed with a cavity, which has an end section in which an opening is formed to correspond to the spring arm. The locking structure is combinable with a connector body to form a telecommunication connector that is insertable into a socket, such that the pull resistant section is received into an insertion hole of the socket and the spring arm is brought into engagement with blocks formed inside the socket so as to prevent the telecommunication connector from being removed out of the socket.

An electrical receptacle including a body having a plurality of electrical connections, a device face connected to the body, and wherein the device face is movable with respect to the body from an electrically inactive position to an electrically active position. The electrical receptacle may further include at least one pair of electrical contacts which are in electrical continuity when the electrical receptacle is in an electrically active position.

A security apparatus for a portable electronic device having a slot includes a body having an insertable portion configured to be inserted into the slot of the portable electronic device, and a boss extending from the insertable portion and positioned outside of the slot. The boss is configured to attach to a lock head. The security apparatus also includes a wedge supported at least partially within the insertable portion of the body. The wedge is movable relative to the insertable portion between a first position, in which the wedge extends out of the insertable portion and is configured to engage a surface of the portable electronic device that defines the slot, and a second position, in which the wedge is retracted relative to the first position and is configured to disengage the surface of the portable electronic device that defines the slot.

An integrated data and security cable couples to a portable information handling system with pins engaged at pin guides formed in the system housing on opposing sides of a data port. At least one pin selectively locks and unlocks in the pin guide to secure the system to a fixture, such as a desktop. The locking pin releases from the cable side with a key or combination or, alternatively, releases from the information handling system, such as under control of an embedded controller or other security system.

An integrated power-security cable device usable with a computing device includes an integrated power-security cable. The integrated power-security cable device includes a security cable to secure the computing device to an object, a power cable to provide power to the computing device, and a covering member surrounding the security cable and the power cable. The integrated power-security cable device is connected to an integrated electrical connector including a security lock to lock the integrated electrical connector to the computing device.

A system is provided and includes a resource, locking elements and a controller. The resource includes multiple independently securable resources. The locking elements are respectively configured to assume a locked condition in which corresponding ones of the multiple independently securable resources are locked and an unlocked condition in which the corresponding ones of the multiple securable resources are unlocked. The controller is receptive of an instruction to authorize users to unlock the one or more of the multiple independently securable resources and is configured to perform operating system (OS) level authentication of the users and OS level control of the locking elements in accordance with the instruction to authorize users and the OS level authentication.

An apparatus for controlling locking of a charging inlet includes a charging inlet including an input device configured to be provided at a position where pressurization is determined based on a type of a connector of a charging cable and to be engaged with the connector, an on board charger (OBC) configured to generate an inlet unlocking signal when the input device is pressurized by the connector, and a controller configured to unlock the charging inlet when the inlet unlocking signal is received.