One or more examples provide an electric vehicle or a device for use with an electric vehicle, including an electric vehicle charging system and method with charging cable anti-theft system.

Systems and methods related to securing batteries to micro-mobility transit vehicles are disclosed. For example, a micro-mobility transit vehicle may have a battery compartment and a battery compartment door having a first end and a second end. The battery compartment door may provide a floorboard surface for the micro-mobility transit vehicle where the first end of the battery compartment door is hingedly coupled to the micro-mobility transit vehicle and the second end of the battery compartment door includes at least one pair of prongs extending from the second end and at least one breakaway tab physically coupled to each pair of prongs. The battery compartment door and a battery disposed within the battery compartment may be electromechanically secured to the micro-mobility transit vehicle by engaging locking cams on the breakaway tabs.

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.

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.

The present invention relates to an electric plug-in connection, in particular for electric vehicles. Said plug-in connection is equipped with a plug-in connector (1, 2) substantially consisting of a socket (1) and a plug (2). The connection is also provided with a locking unit (4, 5) comprising at least one blocking element (4) and a transmission element (5) for detachably coupling the socket (1) and the plug (2). Further, an actuator (8) is provided, for actuating the transmission element (5) together with the blocking element (4) arranged at one end thereof. According to the invention, the transmission element (5) is in the form of a gear arrangement (5).

A method for communicating between an electric vehicle and a charging station for electrically charging at least one energy storage device of the electric vehicle. The electric vehicle is connected to the charging station during the charging process by a lockable mechanical coupling between a terminal of charging cable connected to the vehicle and a terminal of the charging station. Charging current is fed from the charging station through the charging cable. Information is transferred in the course of the charging process based on a communication between the electric vehicle and the charging station. The information includes a signal transmitted from the electric vehicle to the charging station for locking and/or unlocking the mechanical coupling. The signal triggers the locking and/or unlocking of the mechanical coupling between the terminal of the charging cable and the terminal at the charging station.

A method for communicating between an electric vehicle and a charging station for electrically charging at least one energy storage device of the electric vehicle. The electric vehicle is connected to the charging station during the charging process by a lockable mechanical coupling between a terminal of charging cable connected to the vehicle and a terminal of the charging station. Charging current is fed from the charging station through the charging cable. Information is transferred in the course of the charging process based on a communication between the electric vehicle and the charging station. The information includes a signal transmitted from the electric vehicle to the charging station for locking and/or unlocking the mechanical coupling. The signal triggers the locking and/or unlocking of the mechanical coupling between the terminal of the charging cable and the terminal at the charging station.

A charging device for a power storage device includes a current control device configured to selectively enable and disable current from being delivered to the power storage device. The charging device also includes an actuator that moves at least a first portion of the charging device from a first position to a second position, and a controller coupled to the actuator and the current control device. The controller determines whether a predetermined actuation condition is met, activates the actuator to move the at least a first portion of the charging device to the second position upon the determination that the predetermined actuation condition is met, and controls the current control device to enable current to be delivered when the at least a first portion of the charging device is in the second position.

A system and method is provided for detecting vehicle proximity in an electric vehicle supply equipment (EVSE). A sensor may be configured to detect a presence of a vehicle within a predetermined distance of the EVSE. A processor may be configured to determine that the vehicle is in proximity of the EVSE in response to the sensor detecting the presence of the vehicle. The processor may be further configured to generate an alert in response to a determination that the vehicle is in proximity of the EVSE.

A vehicle charging apparatus mounted on a vehicle for charging an on-vehicle battery from an external power supply, with a charging plug connected to the vehicle, includes a communication device that is configured to perform communication with a charging facility providing the external power supply with the charging plug connected and locked to the vehicle. The communication device prohibits disconnection of the communication when an unlocking operation to unlock the charging plug is executed during charging from the external power supply to the on-vehicle battery.