Methods and systems related to a charging station for a tracked mobile object are disclosed. In one embodiment, a charging station is provided. The charging station comprises a charging port for a remote control, a regulator that provides power from a power source to the charging port, a transceiver that transmits an outbound positioning signal to the remote control, and a non-transitory computer-readable medium storing instructions for a method. The method comprises at least one of generating the outbound positioning signal and receiving an inbound positioning signal.

The present disclosure is directed to autonomous vehicle platforms and autonomous vehicles including such platforms. For example, an autonomous vehicle can include a bisymmetrical platform including a first portion, a second portion, a third portion and a fourth portion that collectively provide a supporting structure for the autonomous vehicle and that respectively comprise a wheel mounting frame configured for location of a wheel assembly. A body including front and rear sides and first and second lateral sides can be positioned on top of the bisymmetrical platform configured to receive passengers for transport. The autonomous vehicle can also include a plurality of wheel assemblies configured for secure positioning relative to each wheel mounting frame within the bisymmetrical platform and a powertrain configured to power the plurality of wheel assemblies for operation of the autonomous vehicle to travel in either a forward direction or a rear direction.

A vehicle is proposed to control regeneration and reuse of captured energy in a through-the-road hybrid configuration. The vehicle comprises a vehicle frame, an energy store, and a controller. The vehicle frame is configured for over-the-roadway travel under a power of plural drive axles. At least one of the plural drive axles is coupled via a primary drivetrain to a fuel-fed engine to drive at least a pair of wheels. At least one other of the plural drive axles is an electrically-powered drive axle configured to supply supplemental torque to additional wheels. The energy store is configured to supply the electrically-powered drive axle with electrical power in a first mode of operation and receive energy recovered using the electrically-powered drive axle in a second mode of operation. The controller is coupled between the electrically-powered drive axle and one or more sensor inputs to transition between different modes of operation.

A rechargeable lithium-ion battery assembly configured to provide power to a forklift vehicle, the battery assembly including a plurality of battery modules integrated into the assembly, where each integrated battery module includes a plurality of battery cells within a module casing, with the cells being grouped and interconnected in both series and parallel to provide in combination an overall predetermined electrical potential between a positive terminal and a negative terminal for each module, and where each module uses two conductors within a printed circuit board assembly (PCBA) as busbars, with the PCBA being disposed adjacent to a first end of each battery cell in the module and being electrically coupled by wire bonds with each battery cell, and the PCBA also having a processor (a battery management system, or BMS) for management control of the integrated module. For each battery cell, a first thermally conductive gap filler is disposed to contact the first end of the battery cell and to contact the collector plate, and a second thermally conductive gap filler is disposed to contact a second end of the battery cell as well as the module casing, while heaters and heat dissipating fans are controlled to keep the temperature of the cells in predesigned ranges for charge and discharge according to particular control strategies.

Embodiments of the present application provide a server of a battery swapping station, a charging method and system for a battery, a device and a medium. The method is applied to a server of a battery swapping station, and the method includes: acquiring version information of a first software version after a vehicle mounted with a power battery arrives at the battery swapping station, wherein the first software version is a software version of a first battery management unit of the power battery; controlling, under a condition that the version information of the first software version is lower than version information of a second software version stored in the server, a second battery management unit of the battery swapping station to update the first software version of the first battery management unit to the second software version.

An expansion module for a vehicle includes an onboard electrical system. The onboard electrical system has an electrical energy store and a receiving area for the expansion module. The expansion module includes a module interface and a functional unit. The module interface is configured to form a mechanical connection to a receiving interface of identical design of the receiving area and one or more electrically conductive collections between the expansion module and the receiving area. The functional unit is configured to provide an expansion function for the onboard electrical system of the vehicle, via the one or more electrically conductive connections.

A through the road (TTR) hybridization strategy is proposed to facilitate introduction of hybrid electric vehicle technology in a significant portion of current and expected trucking fleets. In some cases, the technologies can be retrofitted onto an existing vehicle (e.g., a trailer, a tractor-trailer configuration, etc.). In some cases, the technologies can be built into new vehicles. In some cases, one vehicle may be built or retrofitted to operate in tandem with another and provide the hybridization benefits contemplated herein. By supplementing motive forces delivered through a primary drivetrain and fuel-fed engine with supplemental torque delivered at one or more electrically-powered drive axles, improvements in overall fuel efficiency and performance may be delivered, typically without significant redesign of existing components and systems that have been proven in the trucking industry.

An energy system for a vehicle system having a plurality of motors that may include a first power supply assembly that may also include a first battery assembly of a plurality of battery assemblies. The first power supply assembly also may include a first bus coupled to a first motor of the plurality of motors and coupled to the first battery assembly. A second power supply assembly may also be provided that includes a second battery assembly of the plurality of battery assemblies coupled to a second bus that is coupled to a second motor of the plurality of motors. A controller may also be provided that may be configured to vary conduction of electric current from the first battery assembly to the first motor by the first bus based on an operating condition of the second power supply assembly to provide a first input to the first motor that may be different than a second input provided to the second motor by the second battery assembly.

A vehicle module CPM of an inductive vehicle charging system for charging an on-board energy store, wherein the vehicle charging system includes the CPM and at least one base module GPM arranged in a stationary manner, the CPM having: a monitoring device, a secondary coil, a managing device, and a communication device, the monitoring device and the communication device are each connected to the managing device, the secondary coil is designed to receive energy inductively transmitted by the GPM; the monitoring device is designed to ascertain a state Z(t) of the vehicle in which the CPM is installed and/or of the CPM and to transmit information Jo to the managing device in an event of a specifiable state Z.sub.Start, the managing device is designed to transmit software SW.sub.CPM stored on the managing device and intended for the GPM to the GPM by the communication device after obtaining the information I.sub.O.

A passenger compartment which has a first connection device, by which the passenger compartment can be coupled to an aircraft, and a second connection device, by which the passenger compartment can be coupled to a land vehicle. The passenger compartment has an electrical circuit with an electrical energy storage. The electrical circuit of the passenger compartment has a coupling device by which electrical energy can be input from the electrical energy storage into an electrical circuit of the aircraft. The electrical circuit of the passenger compartment has a further coupling device by which electrical energy can be input from the electrical energy storage into an electrical circuit of the land vehicle.