A quick charging method, a power adapter, and a mobile terminal are provided. The method includes: transmitting, by the power adapter, clock signal to the mobile terminal via a first data line of the USB interface in a process of that the power adapter is coupled to the mobile terminal, in which the clock signal indicates a communication sequence between the power adapter and the mobile terminal; conducting, by the power adapter, a bidirectional communication with the mobile terminal via a second data line of the USB interface under control of the communication sequence, so as to determine to charge the mobile terminal in the quick charging mode; and adjusting, by the power adapter, a charging current of the power adapter to the charging current corresponding to the quick charging mode to charge the mobile terminal.

A quick charging method, a power adapter, and a mobile terminal are provided. The method includes: transmitting, by the power adapter, clock signal to the mobile terminal via a first data line of the USB interface in a process of that the power adapter is coupled to the mobile terminal, in which the clock signal indicates a communication sequence between the power adapter and the mobile terminal; conducting, by the power adapter, a bidirectional communication with the mobile terminal via a second data line of the USB interface under control of the communication sequence, so as to determine to charge the mobile terminal in the quick charging mode; and adjusting, by the power adapter, a charging current of the power adapter to the charging current corresponding to the quick charging mode to charge the mobile terminal.

A system for powering a network element of a fiber optic wide area network is disclosed. When communication data is transferred between a central office (CO) and a subscriber terminal using a network element to convert optical to electrical (O-E) and electrical to optical (E-O) signals between a fiber from the central office and twisted wire pair, coaxial cable or Ethernet cable transmission lines from the subscriber terminal, techniques related to local powering of a network element or drop site by the subscriber terminal or subscriber premise remote powering device are provided. Certain advantages and/or benefits are achieved using the present invention, such as freedom from any requirement for additional meter installations or meter connection charges and does not require a separate power network.

A system for powering a network element of a fiber optic wide area network is disclosed. When communication data is transferred between a central office (CO) and a subscriber terminal using a network element to convert optical to electrical (O-E) and electrical to optical (E-O) signals between a fiber from the central office and twisted wire pair, coaxial cable or Ethernet cable transmission lines from the subscriber terminal, techniques related to local powering of a network element or drop site by the subscriber terminal or subscriber premise remote powering device are provided. Certain advantages and/or benefits are achieved using the present invention, such as freedom from any requirement for additional meter installations or meter connection charges and does not require a separate power network.

Roaming electronic devices (4) are recharged on a flat recharging surface provided with wide contact zones, by using an adapter (3) which defines two electrically conductive terminals (B1, B2) of small section in an outer face (F2) of a strip of the adapter. For each device to be powered, provision is made:to stick an inner face of the strip (B) against a face (6) of the device and engage a connector (20) in the device on the side of a bent part (21) of the strip;to place the adapter between the device and the recharging surface to allow conduction from two of the contact zones, the terminals being spaced apart by a predetermined distance (c) very much greater than their section size; and to selectively supply contact zones with current, for these zones on which the two terminals bear to be in an operational state and allow the recharging via the adapter.

Systems and methods for locating and providing public mobile device charging stations are disclosed. One or more charging stations may be configured to charge a battery of a mobile device. A database may be configured to store location information of the one or more charging stations as well as mobile device location and security credential information of the one or more respective mobile devices. A server communicatively coupled with the one or more charging stations and the database, may be configured to determine a proximity of the one or more charging stations to a location of the mobile device. This determination may be based on the station location information and the mobile device location information. Based on the determined proximity, provide the station location information of the respective one or more charging stations to the mobile device. The charging station further provides photo and/or video surveillance security to verify a user.

A communication event processing method includes obtaining, by a first terminal, a use status of the first terminal and a use status of a second terminal. The method includes determining either the first terminal or the second terminal as a communication event receiving terminal according to at least one of the use status of the first terminal or the use status of the second terminal. The method includes sending, by the first terminal, a communication event transfer start instruction message to a server when the communication event receiving terminal is the second terminal and a communication event receiving terminal determined last time is the first terminal, where the communication event transfer start instruction message is used to instruct the server to forward, to the second terminal, a received communication event to be sent to the first terminal.

Systems and techniques for communication over telephony wireline. A command interface and control device may include a wireline input configured to connect the device to an operative line of a wireline telephony network (such as the PSTN) and to transmit voice signals to and receive voice signals from the wireline telephony network. The device may also include a cellular module configured to transmit signals to and receive signals from a cellular telephony network and a system controller to control communications on the wireline input and the cellular module. One or more wireline adapter modules may be configured to provide control functionality local to a telecommunications device.

Systems and techniques for communication over telephony wireline. A command interface and control device may include a wireline input configured to connect the device to an operative line of a wireline telephony network (such as the PSTN) and to transmit voice signals to and receive voice signals from the wireline telephony network. The device may also include a cellular module configured to transmit signals to and receive signals from a cellular telephony network and a system controller to control communications on the wireline input and the cellular module. One or more wireline adapter modules may be configured to provide control functionality local to a telecommunications device.

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.