An integrated power-regulating charge system is an apparatus used to manage the flow of electrical power to the rechargeable battery of a connected electrical system. To accomplish this, the integrated power-regulating charge module includes an electrical input terminal, an output terminal, a shutoff switch, a microcontroller, and a wireless communication module. The electrical input terminal is used to connect the integrated power-regulating charge system to the power input terminal of the electrical system. The output terminal is used to transfer power from the integrated power-regulating charge system into the connected electrical system. The shutoff switch is electrically connected between the electrical input terminal and the output terminal and is used to open the circuit between these two components. The microcontroller directs the shutoff switch be opened or closed. The wireless communication module receives commands that are wirelessly transmitted to the microcontroller from external electrical systems.

A terminal device which is used for charging of portable terminals and data communication, the device including a terminal holder including at least one terminal, a device main body 12 including an opening for mounting the terminal holder, which is configured such that a decorative surface constituting a portion of the device main body is provided on one surface of the terminal holder and the terminal is provided on the other surface and is rotatably attached to the device main body by a rotation mechanism, and is configured so the terminal protrudes the front surface side of the main body in a use state and the decorative surface appears on the front surface side.

An electronic system may include a charging device and an electronic device. The charging device may include an input port, a charge circuit, a storage, and a connector device. The charging device may receive a direct current (DC) voltage at the input port. The charge circuit may receive the DC voltage and provide a charged voltage to the storage. The electronic device may include a body, a battery, a first pad directly on the battery and a second pad directly on the battery. The battery may receive the DC charged voltage when the electronic device is coupled to the charging device.

Aspects of the subject technology relate to a system and method for preventing voltage sagging using an Oring-FET in a redundant power supply configuration. Each redundant power supply includes an Oring-FET and a voltage comparator. The voltage comparator receives and compares an input voltage and an output voltage of the Oring-FET during power up. In the event input voltage is less than the output voltage, the Oring-FET is deemed to be operating properly and provides output to a communicatively coupled system bus in response to the input voltage reaching a predetermined voltage threshold level. In the event the input voltage is approximately equal to the output voltage, the voltage comparator assists in preventing inrush current from flowing from the communicatively coupled system bus and prevents voltage sagging on the communicatively coupled system bus when another redundant power supply configuration is providing power to the communicatively coupled system bus.

A system, apparatus, and method are disclosed for providing electrical charge to residents of a controlled-environment facility. In an embodiment, a charging station may be provided in an area accessible to an inmate to allow charging of in an inmate smart device, such as a phone or tablet. In an embodiment, a portable charger may be provided to an inmate for charging a smart device.

A method, a device and a system for implementing quick charging are provided. The method includes: a mobile terminal and a connected adapter respectively switching signal lines which extend into a charging interface to be connected with charging lines; and the adapter charging the mobile terminal with a set high-order power mode. The present disclosure uses the existing signal lines to thicken the charging lines, thereby the charging current is increased and the purpose of implementing quick charging is realized.

A method, a device and a system for implementing quick charging are provided. The method includes: a mobile terminal and a connected adapter respectively switching signal lines which extend into a charging interface to be connected with charging lines; and the adapter charging the mobile terminal with a set high-order power mode. The present disclosure uses the existing signal lines to thicken the charging lines, thereby the charging current is increased and the purpose of implementing quick charging is realized.

A the network-side distribution point in a telecommunications network includes an input measurement function which monitors the total power delivered to the power combiner from the various customer premises, and an output measurement function which monitors the total power requirements of the components of the distribution point. The data from these monitoring functions are used by a power extraction control unit to control the combiner/extraction unit to draw power from the forward power feed to makes up any shortfall in the power required to operate the components. This allows each customer premises system to deliver power to the distribution point at a rate determined only by the services it is itself using, and without any need for co-ordination between the distribution point and the customer premises systems.

A the network-side distribution point in a telecommunications network includes an input measurement function which monitors the total power delivered to the power combiner from the various customer premises, and an output measurement function which monitors the total power requirements of the components of the distribution point. The data from these monitoring functions are used by a power extraction control unit to control the combiner/extraction unit to draw power from the forward power feed to makes up any shortfall in the power required to operate the components. This allows each customer premises system to deliver power to the distribution point at a rate determined only by the services it is itself using, and without any need for co-ordination between the distribution point and the customer premises systems.

An electronic system may include a charging device and an electronic device. The charging device may include an input port, a charge circuit, a storage, and a connector device. The charging device may receive a direct current (DC) voltage at the input port. The charge circuit may receive the DC voltage and provide a charged voltage to the storage. The electronic device may include a body, a battery, a first pad directly on the battery and a second pad directly on the battery. The battery may receive the DC charged voltage when the electronic device is coupled to the charging device.