A mobile electronic device includes a main framework, a back cover, a door cover, a functional module and a stop element. The back cover covers the main framework and has an expansion window. The door cover covers the expansion window. The functional module is disposed on an inner side of the door cover and electrically connected to a motherboard in the main framework. An operation interface corresponding in position to an outer side of the door cover is disposed on one side of the functional module. One side and the other side of the functional module oppose each other. The stop element is disposed on the inner side of the door cover, abuts against the other side of the functional module, and thus prevents the functional module from retracting under an external force. Therefore, the mobile electronic device is insusceptible to a collision and a fall.

A display device includes a first display and a second display. The first display includes a first body and a first magnet disposed in the first body. The first body has a first side and a slot located at the first side. The first magnet is disposed corresponding to the slot, and the first magnet is adjacent to the first side. The second display is detachably mounted to the first display. The second display includes a second body and a magnetic hook. The second body has a second side and a recess located at the second side, and the magnetic hook is movably disposed in recess. The first side of the first body abuts against the second side of the second body, and the slot is aligned to the recess. The magnetic hook is driven by a magnetic force of the first magnet to be engaged with the slot.

An assembly for a computer system includes a computer chassis having a back panel with a connector panel; a cable covering unit fixable in a mounting position to the back panel that prevents connected plug connectors from being unplugged from the connector panel in the mounting position; wherein the cable covering unit and the computer chassis are arranged such that the cable covering unit can be placed on the computer chassis in an articulated manner to be fixed thereto and subsequently pivoted toward the back panel into the mounting position.

A mobile electronic device includes a main framework, a back cover, a door cover, a functional module and a stop element. The back cover covers the main framework and has an expansion window. The door cover covers the expansion window. The functional module is disposed on an inner side of the door cover and electrically connected to a motherboard in the main framework. An operation interface corresponding in position to an outer side of the door cover is disposed on one side of the functional module. One side and the other side of the functional module oppose each other. The stop element is disposed on the inner side of the door cover, abuts against the other side of the functional module, and thus prevents the functional module from retracting under an external force. Therefore, the mobile electronic device is insusceptible to a collision and a fall.

Operation data is acquired from either a first type of controller having a plurality of operation sections or a second type of controller having fewer operation sections, and a game process is performed. When the first type of controller is used for game operation, a selection item is switched in a forward direction for a plurality of items arranged in a predetermined order, in accordance with an operation on a first operation section, and the selection item is switched in a reverse direction in accordance with an operation on a second operation section. In addition, when the second type of controller is used for game operation, the selection item is switched in the forward direction in accordance with an operation on a third operation section of the second type of controller. Then, a UI image including these items is generated.

A method is provided for locking and unlocking an electronic power tool. The method includes receiving, at a locking device, information associated with the electronic power tool, and generating, at the locking device, a lock code based on the received information. The method further includes transmitting, by the locking device, the lock code to the electronic power tool. The lock code is configured to lock the electronic power tool upon being received at the electronic power tool.

A connector release assist system includes a first connector that has at least one first connector securing feature that is configured to engage a second connector to secure the second connector to the first connector, and disengage the second connector when a second connector release member on the second connector is actuated. A subsystem is located adjacent the first connector such that the subsystem inhibits access to the second connector release member when the second connector is secured to the first connector. A connector release assist device is located adjacent the first connector, extends past the subsystem, and is configured to actuate the second connector release member. In specific examples, the first connector is an RJ-45 female connector, and the second connector is an RJ-45 male connector.

Techniques are disclosed for facilitating providing of sensor capability in devices using device attachments. In one example, a sensor device includes an attachment body configured to be disposed along a side of a user device when the sensor device is coupled to the user device. The sensor device further includes an actuator configured to selectively apply a force. The sensor device further includes a connector block coupled to the actuator and configured to selectively extend from or retract into the attachment body in response to the force. The sensor device further includes a connector configured to couple to a connector port of the user device and provide data communication between the sensor device and the user device. The connector is at least partially disposed in the connector block. Related systems and devices are also provided.

An electronically lockable, electrical plug configured to communicate power and data signals to mobile electronic devices (MED) includes a male electrical plug body insertable into a female electrical socket of the MED and plurality of electrical contacts defined in the male electrical plug for communicating the power and data signals to and from the MED, via corresponding electrical contacts associated with an MED electrical socket. The MED electrical socket is shaped and sized to physically receive and support therein said male electrical plug body. Plug locking elements are formed in the male plug body are so formed as to be lockable to or with corresponding, complementary socket locking elements of the MED, so that upon insertion of the male plug body into the MED socket the electrical plug is locked with the MED An associated, electronically operable locking mechanism is operable to mechanically disengage the plug locking elements from the socket locking elements to thereby enable the electrical plug to be released from the MED and an electrical cable is coupled to the male plug body for electrically conducting the signals.

Computing devices, input devices, keyboard assemblies, and related systems include a set of conductive traces or leads configured to transfer a capacitive load from an appendage of a user or another capacitive load source from a remote location, such as on a keycap of the keyboard, to a conductive portion or electrode on the keyboard that is positioned near a touch-sensitive interface of a computing device. The capacitive load is thereby transferable through the conductive traces or leads to the touch-sensitive interface without having to directly apply the load, such as by touching a finger to the interface. This can reduce or eliminate the need for on-screen controls or keyboard interface elements in a touch screen device without having to use a more expensive and energy-draining wired or wireless connection between the computing device and a keyboard case or accessory for the computing device.