Abstract:
A collection, charging and distribution machine collects, charges and distributes portable electrical energy storage devices (e.g., batteries, super- or ultracapacitors). To charge, the machine employs electrical current from an external source, such as the electrical grid or an electrical service of an installation location. The machine determines a first number of devices to be rapidly charged, employing charge from a second number of devices identified to sacrifice charge. Thus, some devices may be concurrently charged via current from the electrical service and current from other devices, to achieve rapid charging of some subset of devices. The devices that sacrifice charge may later be charged. Such may ensure availability of devices for end users.
Abstract:
A system for utilizing an array of electrical energy storage devices utilizes a smart manager that categorizes electrical energy storage devices in the array based on electrical energy storage device age and/or internal resistance level and causes those electrical energy storage devices with similar ages and/or resistance levels to be concurrently depleted. This is followed by concurrently depleting the electrical energy storage devices in a different category. The system also disconnects faulty electrical energy storage devices in the array and helps alleviate the need to carefully consider and reconfigure the location of individual electrical energy storage devices in the array. The system facilitates forecasting actual capacity and thus helps to guarantee available capacity and to actively maintain capacity via maintenance crews that need simply remove and replace cells as advised by the smart manager. The system 100 facilitates permitting a quality of service (QoS) to be provided to mission critical entities (banks, hospitals, etc.).
Abstract:
Detected events such as impacts, accidents, breakdowns, and types of driving behaviors based on feedback from tilt, gravity, accelerometers and/or shock sensors within a portable electrical power storage device such as a battery and/or within a vehicle (e.g., an electric scooter) are communicated to the user's mobile device, dashboard display and/or backend systems over wired and/or wireless communication channels. The communication of the events and types of events are logged and automatically aggregated from multiple vehicles for further analysis to determine various potential system-wide safety issues and to track event history on an individual per-user or individual per-scooter basis or individual per-battery basis. Such event data may also be transferred accordingly via the battery exchange process at the online exchange machine through a memory device attached to the battery that stores the event data.
Abstract:
A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). Locations of collection, charging and distribution machines having available charged portable electrical energy storage devices are communicated to or acquired by a mobile device of a user or a navigation system of a user's vehicle. The locations are indicated on a graphical user interface on a map relative to the user's current location. The user may select particular locations on the map to reserve an available portable electrical energy storage device at a particular collection, charging and distribution machine location. The collection, charging and distribution machine locations displayed may also be based on a physical distance or driving time from the current location of the user mobile device or vehicle.
Abstract:
A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). Availability of charged portable electrical energy storage devices available at a collection, charging and distribution machine are communicated to or acquired by a mobile device of a user or a user's vehicle. Once the mobile device of a user or a user's vehicle comes within close proximity of the collection, charging and distribution machine or within a particular area surrounding the collection, charging and distribution machine, the collection, charging and distribution machine or a collection, charging and distribution machine management system communicates an alert (e.g., over a cellular network, short range wireless signal or wireless fidelity (Wi-Fi) network) to the mobile device or vehicle indicating how many portable electrical energy storage devices are available at the distribution machine.
Abstract:
Generally described, the present disclosure is directed to examples of electric devices that include first and second stator assemblies located within a rotor assembly. The configuration of the electric device, including the configuration of the first and second stator assemblies, results in the electric device generating a stronger magnetic field and therefore outputting a higher torque when current is provided to the second stator assembly and generating a weaker magnetic field and therefore outputting a higher rotational speed when current is provided to the first stator assembly.
Abstract:
Method and associated system for managing and/or authenticating an energy storage device. The method includes receiving a first portion of identification information stored in a data storage attached to the energy storage device (401); analyzing the first portion of the identification information at least partially based on a device identification of the device (403); updating a second portion of the identification information stored in the data storage attached to the energy storage device based on a result of analyzing the first portion of the identification information (405).
Abstract:
An asset includes a short range transmitter that broadcasts a first signal that includes a unique identifier associated with the asset. Each asset is carried by one of number of mobile devices, and each asset is freely exchangeable between any of the number of mobile devices. Each of at least some of the mobile devices carries a receiver to receive the first signals within reception range of the receiver. Each of at least some of the mobile devices aggregates the received unique identifiers. Each of at least some of the mobile devices carries a transmitter that transmits a second signal that includes data representative of a geolocation of the respective mobile device and data indicative of the unique identifiers received by the respective mobile device to a back-end system. The back-end system uses the data included in the received second signals to track and locate assets within a geographic area.
Abstract:
A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). To charge, the machines employ electrical current from an external source, such as the electrical grid or an electrical service of an installation location. By default, each portable electrical energy storage device is disabled from accepting a charge unless it receives authentication information from an authorized collection, charging and distribution machine, other authorized charging device, or other authorized device that transmits the authentication credentials. Also, by default, each portable electrical energy storage device is disabled from releasing energy unless it receives authentication information from an external device to which it will provide power, such as a vehicle or other authorization device.