A system and method are provided for powering a fleet of local use vehicles using batteries, the batteries being removable from the local use vehicles for charging. The system and method include moving one of the local use vehicles in a battery exchange location when the battery in the local use vehicle is in an uncharged state, removing the battery in the uncharged state from a battery compartment in the local use vehicle using a robotic device, and placing the battery in the uncharged state into a first charging bay within a charging repository using the robotic device, the charging repository configured with a plurality of the charging bays to simultaneously hold and to charge a plurality of the batteries, removing a battery in a charged state from a second bay in the charging repository using the robotic device, and placing the battery in the charged state into the battery compartment in the local use vehicle.

A wireless communication system for batteries removably mountable in local use vehicles and chargeable in a charging repository includes a plurality of batteries, each battery having a housing; a first wireless communication device attached to an outer surface of the housing for receiving and transmitting data; and electrical contacts attached to the housing for selectively providing power to or from the battery. A plurality of second wireless communication devices is mountable to either a one of the local use vehicles or to a location in the charging repository for communication with one of the first wireless communication devices when in an adjacent communication orientation. The first wireless communication devices and the second wireless communication devices communicate, potentially but not necessarily via an NFC protocol, only when in an adjacent communication orientation, so that one of the first wireless communication devices on a given one of the batteries can communicate with only one of the second wireless communication devices in the adjacent communication orientation without interference from others second wireless communication devices.

A method of managing a power storage includes determining, when break of a body of a vehicle including a leased power storage is sensed, whether or not the power storage is in a controllable state, setting an output limit of the power storage in the vehicle when it is determined that the power storage is in the controllable state, and transmitting a collection request signal that requests collection of the power storage from the vehicle to a terminal of an owner of the power storage when break of the body is sensed.

A battery module with removable cells and a battery management system or charging station system that determines the number of cells to use for a given trip. Thus, the system receives trip information (starting point, destination, stops, etc.) and determines the number of cells required for the trip, optionally based on traffic conditions, weather, prior driving habits, cell state of charge (SOC), cell state of health (SOH), and the like. The system can recommend which cells to leave in the vehicle, which cells to remove from the vehicle, which cells to place in the vehicle, which cells to charge, and the like, via a visual indicator. Importantly, a number of cells actually required for the trip can be suggested, without extra cells, such that extra weight in terms of unused cells may be removed from the vehicle, thereby increasing trip efficiency.

A battery module with removable cells and a battery management system or charging station system that determines the number of cells to use for a given trip. Thus, the system receives trip information (starting point, destination, stops, etc.) and determines the number of cells required for the trip, optionally based on traffic conditions, weather, prior driving habits, cell state of charge (SOC), cell state of health (SOH), and the like. The system can recommend which cells to leave in the vehicle, which cells to remove from the vehicle, which cells to place in the vehicle, which cells to charge, and the like, via a visual indicator. Importantly, a number of cells actually required for the trip can be suggested, without extra cells, such that extra weight in terms of unused cells may be removed from the vehicle, thereby increasing trip efficiency.

Provided are a battery swapping control method and system, an electronic device, and a computer readable storage medium, the battery swapping control method being used for a battery swapping device (2) to remove a battery pack from the bottom of an electric car (9), the battery swapping device (2) having a liftable battery swapping platform, and the battery swapping control method comprising: controlling the battery swapping device (2) to move to a preset battery swapping position beneath the electric car (9); controlling the battery swapping platform to rise to a preset removal height; and controlling the battery swapping device (2) to remove the battery pack from the bottom of the electric car (9), thereby the entire procedure of the battery swapping process is controlled, increasing battery swapping efficiency and reducing the safety hazards in the battery swapping process.

Provided are a battery swapping control method and system, an electronic device, and a computer readable storage medium, the battery swapping control method being used for a battery swapping device (2) to remove a battery pack from the bottom of an electric car (9), the battery swapping device (2) having a liftable battery swapping platform, and the battery swapping control method comprising: controlling the battery swapping device (2) to move to a preset battery swapping position beneath the electric car (9); controlling the battery swapping platform to rise to a preset removal height; and controlling the battery swapping device (2) to remove the battery pack from the bottom of the electric car (9), thereby the entire procedure of the battery swapping process is controlled, increasing battery swapping efficiency and reducing the safety hazards in the battery swapping process.

A method for replacing a battery includes steps of removing an old battery unit including an old battery and an old memory from a battery support portion of a vehicle, attaching a new battery unit including a new battery and a new memory to the battery support portion, and writing the update program for the vehicle into the new memory before attaching the unit to the battery support.

A method for replacing a battery includes steps of removing an old battery unit including an old battery and an old memory from a battery support portion of a vehicle, attaching a new battery unit including a new battery and a new memory to the battery support portion, and writing the update program for the vehicle into the new memory before attaching the unit to the battery support.

A dispenser for dispensing charged battery units into a tank of an electrically powered apparatus. The dispenser comprises a dispensing container for accommodating a plurality of charged battery units, and a conduit having a first end coupled to the dispensing container and a second end adapted to be coupled to a tank to be filled. The dispenser further comprises a dispensing mechanism for selectively dispensing battery units to the tank through said conduit, the dispensing mechanism comprising a metering unit for monitoring and controlling the number and or state of battery units dispensed.