An information processing device that is capable of executing processing corresponding to execution of replacement of an energy supply unit at a facility. A control server is provided with a control server control unit for acquiring device-related information on a driving device in which a mounted energy supply unit serving as an energy supply unit for supplying energy to a power source is replaceably mounted, and selecting a facility recommended to perform replacement of the energy supply unit out of facilities that store stored energy supply units serving as energy supply units replaceable with the mounted energy supply unit, and that are able to replace the mounted energy supply unit with one of the stored energy supply units.

A battery charging assembly includes a load management system, a charging cord with a battery connector, and circuitry for detecting thermal buildup. The load management system monitors the heat buildup in a coiled portion of the charging cord and issues a corresponding signal to control the current flowing through the cord.

A battery charging assembly includes a load management system, a charging cord with a battery connector, and circuitry for detecting thermal buildup. The load management system monitors the heat buildup in a coiled portion of the charging cord and issues a corresponding signal to control the current flowing through the cord.

A vehicle includes a vehicle body, a vehicle seat, an inverter and an inverter cover. The vehicle body defines a vehicle interior. The vehicle seat is disposed on a floor of the vehicle interior. The inverter has a housing fixed to the floor of the vehicle interior at a location underneath the vehicle seat. The inverter cover is detachably attached to the inverter housing.

A vehicle power system includes a coil that, in a first operational mode, receives power wirelessly from an external source, a first battery connected to the coil to receive power transferred from the coil while the coil is in the first operational mode, a second battery that receives power from the first battery, and a switch that switches the coil between the first operational mode and a second operational mode in which the coil receives power from the second battery and wirelessly transfers power from the second battery to an electrical load in the vehicle.

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 truck, a tractor unit, a trailer, a tractor-trailer configuration, at a tandem, 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.

Vehicle mounted Radio Frequency Identification (RFID) systems and associated methods are provided. An example vehicle mounted RFID system is configured to operate an RFID system in a high-power mode. The example vehicle mounted RFID system is further configured to determine that an operating state of a vehicle switched from an active charging state to an inactive state. The example vehicle mounted RFID system is further configured to, in response to determine that the operating state of the vehicle switched from the active charging state to the inactive state, initialize a timer for a period of time. The example vehicle mounted RFID system is further configured to, in response to an elapse of the period of time, switch the RFID system to a low-power mode.

A method of controlling an electric marine propulsion system configured to propel a marine vessel and powered by a power storage system includes presenting on a user interface a plurality of power mode options selectable by a user, including at least a reduced power and an emergency power mode. Upon selection of the reduced power mode by the user, at least one auxiliary devices utilizing power from the power storage system is automatically turned off and the propulsion system is controlled so as not to exceed a first speed limit. Upon selection of the emergency power mode by the user, the at least one auxiliary device utilizing power from the power storage system is turned off and the propulsion system is controlled so as not to exceed a second speed limit that is lower than the first speed limit.

The present invention relates to a work machine, in particular a wheeled loader, having an electric motor and having oil cooling that is suitable and intended to cool the electric motor and having a driving axle that has an oil reservoir, wherein a feed line from said oil reservoir to the electric motor and a discharge line from the electric motor to said oil reservoir are present and a pump is present to pump oil from the oil reservoir to the electric motor so that the electric motor is cooled by means of oil from the oil reservoir of the driving axle.

A power distribution apparatus includes: a power transmitter to which a power transmission cable for supplying power to an external device is connected; a fast charger to which a fast charging cable for receiving power from a power source is connected; a processor configured to, in response to an execution command of a fast charging mode and a load power supply mode, distribute power supplied through the fast charging cable, transfer a portion of the distributed power to the external device, and transfer a remainder of the distributed power to a battery; and a power converter provided between the fast charger and the power transmitter, and configured to, when transferring the portion of the distributed power to the external device, convert a voltage of the power supplied through the fast charging cable, and transfer the voltage-converted power to the power transmitter.