Embodiments of the present application provide a battery charging control method and apparatus, a battery management system, and a medium. The method includes: obtaining, based on a received charging request, a threshold value and an initial value of a charging parameter of a battery, wherein the threshold value of the charging parameter is determined based on an actual capacity value of the battery and an accumulated mileage of an electric vehicle where the battery is located; sending, under a condition that the initial value of the charging parameter is less than the threshold value of the charging parameter, a control command of charging the battery, so as to charge the battery; obtaining a value of the charging parameter of the battery in real time during the charging of the battery; sending a control command of stopping charging the battery, so as to stop charging.

This invention provides an enhanced electric vehicle battery powering and recharging system technology, particularly when the vehicle is moving or when wind or air comes in contact with the vehicle wind-power electric generator propeller system. The invention can be installed in partial or fully electric land, air, or water vehicles, to power or recharge the vehicle's battery system. This invention will extend a vehicle's travel distance before or without stopping and connecting to fossil fuel or other stationary rechargeable power sources. The vehicle's wind-powered electric generator invention is an additional battery charging technology that will support any partial or fully electric-powered vehicle. The invention can be installed in a partial or fully electric-powered vehicle as a hardware component and software program, without any interferences with existing vehicle electric battery charging systems.

A charging system for a smart battery, including a control device, is provided. The control device includes a processing circuit, configured to receive the charging voltage parameter and the charging current parameter, which were configured by the user, from the bus, and to cause the charging circuit to charge the battery according to the charging voltage parameter and the charging current parameter.

Devices, systems, and techniques for monitoring the temperature of a device used to charge a rechargeable power source are disclosed. Implantable medical devices may include a rechargeable power source that can be transcutaneously charged. The temperature of an external charging device and/or an implantable medical device may be monitored to control the temperature exposure to patient tissue during a charging session used to recharge the rechargeable power source. In one example, a temperature sensor may sense a temperature of an internal portion of a device, wherein the housing of the device is not directly thermally coupled to the temperature sensor. A temperature for the housing of the device may then be estimated based on the sensed temperature provided by the non-thermally coupled temperature sensor. A processor may then control charging of the rechargeable power source based on the determined temperature for the housing.

A charging management method includes charging the battery, stopping charging the battery when a first battery voltage of the battery reaches V1, and displaying prompt information when a working parameter of the battery meets a first condition. The working parameter is first working durations of the battery at a plurality of temperatures, or second working durations of the battery at a plurality of second battery voltages.

An electronic device is provided. The electronic device includes a battery, at least one transceiver, and at least one processor configured to be operatively coupled with the at least one transceiver. The at least one processor is configured to detect a charging event for the battery, to determine difference value between first communication quality before detection of the charging event and second communication quality after detection of the charging event, to determine a charge current, based on the difference value, and to charge the battery according to the determined charge current value.

A method identifies a measure that is not provided for by a manufacturer on or using a removable battery pack having at least one energy storage cell and a monitoring unit. The method includes detecting and storing a voltage of the removable battery pack and/or a cell voltage of the at least one energy storage cell using the monitoring unit before the monitoring unit is set to a quiescent state or when the removable battery pack is set to a state other than a charging operating state. The method also includes comparing the detected voltage of the removable battery pack and/or the detected cell voltage with a previously-stored voltage of the removable battery pack or a previously-stored cell voltage using the monitoring unit when the monitoring unit is set to an operating state or when the removable battery pack is in the state other than the charging operating state.

A portable vehicle-charging system includes a control-pilot circuit configured to generate a plurality of signals, each of the signals having a unique duty cycle that corresponds to a predetermined charging current to be used during a charging event. The system further includes a global positioning system (GPS) module configured to output GPS data indicative of a location of the portable vehicle-charging system. A controller of the system is programmed to receive the GPS data to determine the location of the portable vehicle-charging system, and command the control-pilot circuit to generate the one of the signals corresponding to the location so that the vehicle charges according to a corresponding one of the charging currents that is compatible with a power grid of the location.

Embodiments of the present invention relate to the field of charging technologies, and particularly to a charging method and apparatus, a charging device, and a charging system. The charging method is configured for charging a battery. The method includes: acquiring a number of charging cycles and a charging temperature of the battery; determining a target charging parameter according to the number of charging cycles and the charging temperature; and charging the battery according to the target charging parameter. By means of the method, the embodiments of the present invention can determine in real time a target charging parameter for charging a battery according to different aging degrees and temperature states of the battery, thereby improving the safety of charging.

A charging management device for vehicle and a method thereof are provided. The charging management device includes a user DB constructed based on a pattern where a user uses a wireless charging road. A power network state identifying device identifies a power network state of the wireless charging road and a battery state identifying device identifies a battery state of a vehicle. A controller then generates a charging schedule with regard to a user profile, the power network state of the wireless charging road, and the battery state of the vehicle and adjusts battery charging based on the generated charging schedule.