A mobile discharging device for an energy storage device of an electric vehicle and to a method for operating the device.

A control apparatus comprises: a first acquisition unit configured to acquire information indicating charging and discharging performance of an electric power device and environmental information on the electric power device; a second acquisition unit configured to acquire information indicating a characteristic of operation of charging and discharging the electric power device; a correction unit configured to correct the information indicating the charging and discharging performance of the electric power device on the basis of the environmental information; and a control unit configured to control the operation of charging and discharging the electric power device according to a management plan, the management plan being based on the information indicating the charging and discharging performance corrected by the correction unit and the information indicating the characteristic of the operation of charging and discharging the electric power device.

A control system is a control system that controls transfer of electric power between a power grid and a secondary battery that is mounted in a vehicle and stores electric power for travel and includes a determiner configured to determine whether a state in which charging electric power or discharging electric power is equal to or less than a threshold continues for a predetermined time on the basis of a detection result of the charging electric power with which the secondary battery is charged or the discharging electric power discharged from the secondary battery, and a controller configured to cause the transfer of electric power between the power grid and the secondary battery to stop when the determiner determines that the state in which the charging electric power or the discharging electric power is equal to or less than the threshold continues for the predetermined time.

A method of managing power for recharging electric vehicles efficiently stores, delivers, and distributes energy. The method includes a plurality of user accounts managed by at least one remote server. The system includes a plurality of mobile computerized recharging stations, wherein each mobile computerized recharging station tracks a location and a current amount of available power within a power storage system. The method begins by prompting each user account to search for at least one best-match station. A search request is relayed for the best-match station from a corresponding user PC device to the remote server. The current location is compared to the station location for each mobile computerized recharging station. The minimum threshold of available power is compared to the current amount of available power for each proximal station. The sufficiently-powered station is displayed as the best-match station through the user PC device.

This invention is based on the availability of Electric Vehicles with onboard inverters and receptacles to supply significant amounts of AC power from the main propulsion batteries of the vehicles. It embodies a system comprising an apparatus and methods for bidirectionally connecting one or more electric vehicles at a workplace or multifamily residence to one or more distribution panels supplying critical loads and one or more panels supplying interruptible loads such that the vehicle(s) can supply back up power to critical loads during a grid outage. The bidirectional connection also enables V2G operation to enable energy arbitrage, demand response, and ancillary services to the grid.

The present disclosure provides a new and improved method and apparatus of scheduling for a charging infrastructure serving a plurality of electric vehicles. A computer-implemented method for scheduling a charging infrastructure serving a plurality of electric vehicles is provided, in which a prediction for a usage pattern of the charging infrastructure is made with a context based on historical usage patterns of the charging infrastructure and the contexts of the historical usage patterns, and a schedule scheme for deciding a distribution of charging spots of the charging infrastructure among the electric vehicles is determined based on the predicted usage pattern.

An electric vehicle (EV) charging system includes a number of output connections (e.g., cables). Each of the output connections is connected to at least one head, and each head can be connected concurrently to an EV. A controller can direct a charging current, delivered over a dedicated circuit from an electric power supply, to a first one of the output connections if a first EV is connected to a head connected to the first one of the output connections. Then, the charging current to the first one of the output connections can be stopped, switched to a second one of the output connections, and restarted if a second EV is connected to a head connected to the second one of the output connections.

The present application discloses a charging method, an apparatus, a device, a medium, a battery management system and a charging pile. The method includes: acquiring a charging demand parameter set by a user; calculating, according to the charging demand parameter and acquired actual operation state information of a battery, a target charging scheme for charging the battery; transmitting, according to the target charging scheme, a first charging request to a charging device, so that the charging device charges the battery according to the first charging request. According to the charging method, the apparatus, the device, medium, the battery management system and the charging pile provided in the embodiments of the present application, personalized smart charging can be achieved for different users.

An ECU performs a process including: when a vehicle establishes a Ready-On state, selecting a CD mode; when discharging power is uncompleted and a scheduled time to return the vehicle is a time within a discharging period, setting a second target SOC as a mode switching value; and when the vehicle's power storage device has an SOC reaching the mode switching value and a surcharge imposed on a rental fee is unaccepted, switching the current control mode from the CD mode to a CS mode.

A charge/discharge management apparatus for executing charge/discharge of a battery of a vehicle electrically connected to a facility, comprising an obtaining unit for obtaining use histories of a plurality of batteries corresponding to a plurality of vehicles electrically connected to the facility, and a selection unit for selecting a battery subjected to execution of charge/discharge from the plurality of batteries based on priority decided from the use histories.