A work vehicle 1 includes a display unit 51 of a rechargeable work vehicle 1, and a display unit controller 53 configured to reduce a brightness of the display unit 51 during charge of the work vehicle 1, compared with that during operation of the work vehicle 1.

A rechargeable battery pack (20) for an electric or hybrid vehicle (1), comprising: at least one electric connection member (23) to a powertrain unit (5) of the electric or hybrid vehicle (1); a plurality of mutually electrically connected cells (30); at least one first circuit block (40) integrated in the rechargeable battery pack (20) and comprising a radio communication interface (45).

An apparatus in an electric vehicle for controlling an electric vehicle pilot signal level includes proximity detection circuitry for detecting when a proximity switch in an electric vehicle connector is actuated, and pilot level-control circuitry for signaling an electric vehicle supply equipment coupled with the electric vehicle to remove charging voltage from the electric vehicle connector responsive to the proximity detection circuitry detecting that the proximity switch in the electric vehicle connector is actuated.

This disclosure provides systems, methods and apparatus for detecting foreign objects. In one aspect an apparatus for detecting a presence of an object is provided. The apparatus includes a resonant circuit having a resonant frequency. The resonant circuit includes a sense circuit including an electrically conductive structure. The apparatus further includes a coupling circuit coupled to the sense circuit. The apparatus further includes a detection circuit coupled to the sense circuit via the coupling circuit. The detection circuit is configured to detect the presence of the object in response to detecting a difference between a measured characteristic that depends on a frequency at which the resonant circuit is resonating and a corresponding characteristic that depends on the resonant frequency of the resonant circuit. The coupling circuit is configured to reduce a variation of the resonant frequency by the detection circuit in the absence of the object.

A vehicle having an electrically operated drive motor, a battery for the energy supply of the drive motor, the battery being secured by a battery lock in a battery compartment of the vehicle and being removable from the battery compartment after unlocking the battery lock, and a control unit for the battery lock.

An ECU sets a voltage of an inverter side in an external supply mode to be less than a voltage of the inverter side when a first MG supplies the electric power equal to the electric power in the external supply mode in a traveling generation mode.

An exemplary locking assembly includes, among other things, a lock that transitions between a first state that prevents disengaging electric vehicle supply equipment from a charge port and a second state that permits the disengaging. A control module is configured to command the lock to transition from the first to the second state in response to a user interaction with a selector device and an authentication of the user interaction. An exemplary securing method includes, among other things, receiving a request to disengage electric vehicle supply equipment (EVSE) from a charge port of a vehicle, permitting a disengaging if the request can be authenticated, and preventing the disengaging if the request cannot be authenticated.

A receptacle assembly is provided with an electrically conductive terminal received within a receptacle. A longitudinal guide body is received within the receptacle in engagement with the terminal. The guide body has an aperture formed therethrough, which is sized to receive a pin through the aperture. At least one fastener extends from the guide body to provide an interference fit with a housing of the receptacle. A retainer is also provided with at least one fastener extending from a guide body to fasten the retainer to the receptacle. A charge assembly is also provided with a handle housing. A shoulder extends transversely from the guide body to engage a distal end of the receptacle and to position the guide body relative to the receptacle. A sleeve extends from the shoulder at least partially over the receptacle housing. The sleeve is formed integrally with the handle housing.

Techniques are disclosed for systems and methods associated with a micromobility transit vehicle battery connection and lock. In accordance with one or more embodiments, a micromobility transit vehicle is provided. The micromobility transit vehicle may include a frame, a battery configured to be received at least partially within the frame, and a battery lock within the frame. The frame may include a downtube having a recess disposed therein. The battery may be configured to be received within the downtube and the recess to establish a continuous surface comprising one or more outer surfaces of the downtube and one or more outer surfaces of the battery. The battery lock may be positioned within the recess and configured to engage the battery to lock the battery in place.

The invention relates to a line set (4) for a charging station (1) for charging electrical energy stores of motor vehicles (2), comprising a charging cable (5) which, at a free end, has a connecting plug (6) for electrical connection to the motor vehicle (2), wherein the charging cable (5) has one or more electric lines (19) which are jointly covered by an electrically insulating sheath (9). The sheath (9) has at least one electric test line (11, 12) extending along the charging cable (5) and electrically insulated from the lines (19).