A communication device for connection with a power source and a host device is provided. The communication device comprises a device controller and a converter circuit. The device controller is adapted for data communication with the host device and the converter circuit is configured to provide a virtual device ground at least to the device controller, so as to compensate a ground potential difference between the host device and the communication device.

Provided is an apparatus and method for a digital power supply that can provide independent power control for two or more electrical loads. Some disclosed embodiments provide continuous, variable power and other disclosed embodiments provide discrete power levels. Disclosed embodiments may reduce the magnitude of harmonic currents and/or flicker introduced into a power system. Embodiments include a microprocessor that delivers power to electric loads using phase-controlled AC current. In some embodiments, the microprocessor may calculate a power array corresponding to a requested power for each electric load. Logic is provided for populating the power array in a pattern that reduces the magnitude of harmonic currents and flicker. Portions of the disclosure include a band controller for delivering power to achieve and maintain a desired target temperature, and a wireless controller for controlling temperature from a remote device.

A module for detecting presence of an electronic payment terminal on a receiving dock having a connector intended to co-operate with a complementary connector of the electronic payment terminal. The connector of the receiving dock includes at least one series transmission pin intended for transmitting signals from the electronic payment terminal to the receiving dock. The module is configured to drive at least one module for signaling a presence of the electronic payment terminal on the receiving dock as a function of the voltage on the series transmission pin.

An arc prevention system including a jack having a receptacle, with the receptacle having an upper wall, a bottom wall, two opposing side walls and a back wall between the two opposing side walls, a sensor unit positioned on the back wall of the receptacle, where the sensor unit is positioned on the back wall of the receptacle such that the sensor unit engages a plug inserted into the receptacle.

An angle determining circuit and method, and a folding screen terminal are provided. The circuit is applied to the folding screen terminal which includes a first and second screens rotatably connected through a rotary shaft, a resistance ring is fixedly provided outside the rotary shaft. The circuit includes: a first power supply; a first resistor, where one terminal of the first resistor is electrically connected to the first power supply; a first conductive element fixedly disposed at the first screen, where one terminal of the first conductive element is electrically connected to the other terminal of the first resistor, and the other terminal thereof slidably abuts against the resistance ring; a second conductive element fixedly disposed at the second screen, where one terminal of the second conductive element slidably abuts against the resistance ring, and the other terminal thereof is grounded; and a processor.

A first terminal receives a first DC voltage. A switch selectively couples the first terminal to a second terminal providing an output. A control circuit selectively actuates the switch in response to a comparison of the first DC voltage to a second DC voltage. A low-dropout (LDO) linear voltage regulator, connected between the first and third terminals, operates to provide the second DC voltage from the first DC voltage.

An example apparatus Includes a first hinge, a first housing having a hinge region and a support panel, where the support panel is to extend from the hinge region. The apparatus also Includes a first display device rotatably coupled to the support panel via the first hinge, a second housing having a set of external electrical contact to provide power to a removable input device, a second hinge to rotatably couple the first housing to the second housing, and a second display device fixedly coupled to the second housing.

A system including a power bus configured to supply power to a plurality of server racks arranged within a space of a building, a first power source connection positioned at a first side of the building and configured to supply power from a first power source to the power bus, a second power source positioned at a second side of the building different from the first side and configured to supply power from a second power source to the power bus, and a plurality of diverter switches arranged within the power bus. Each diverter switch may be configured to receive a respective control signal and, responsive to the respective control signal, redirect power within the power bus.

An open concept computer cart has a frame, a lower computer storage shelf supported by the frame, an upper computer storage shelf supported by the frame, and a forward-facing brick storage area formed vertically intermediate the upper and lower computer storage shelves. The upper and lower computer storage shelves are rearwardly inclined to prevent computers stored thereon from sliding off of the shelves. A single wiring retention strip is formed along a front surface of the open concept computer cart, and a power outlet strip is formed along a rear of the brick storage area. The wiring retention strip has wire retention cutouts formed along its length to retain charging tethers for computers stored on both the upper and lower computer storage shelves.

A method of provisioning a system includes defining one or more virtual peripherals such that each of the virtual peripherals corresponds to a respective device; identifying one or more enabled virtual peripherals; and identifying one or more control modules. Each of the control modules includes one or more terminals for connecting to one or more devices. The method further includes linking each of the enabled virtual peripherals to a respective terminal of the one or more control modules to form a link; generating a provisioning configuration that represents the link between the respective terminal and the corresponding one of the enabled virtual peripherals; and writing the provisioning configuration to each of the control modules. The method further includes connecting the respective device to the respective terminal consistent with the link between the respective terminal and the corresponding one of the enabled virtual peripherals.