An electric vehicle charging system includes a charging connector configured to receive a charging cable. The charging cable and/or the charging connector provide structures for guiding a coolant, cooling the charging cable and/or the charging connector. The electric vehicle charging system further comprises a thermal management unit for cooling the coolant. The thermal management unit comprises a vapor-compression refrigeration system for cooling the coolant below ambient temperature.

An electric vehicle charging system includes a charging connector configured to receive a charging cable. The charging cable and/or the charging connector provide structures for guiding a coolant, cooling the charging cable and/or the charging connector. The electric vehicle charging system further comprises a thermal management unit for cooling the coolant. The thermal management unit comprises a vapor-compression refrigeration system for cooling the coolant below ambient temperature.

An electric vehicle charging system includes a charging connector configured to receive a charging cable provided with electrical charging wires. The charging cable and/or the charging connector provide a flow path for guiding a liquid coolant, cooling the charging cable and/or the charging connector, and a thermal management unit for cooling the liquid coolant, the thermal management unit being fluidly connected to the flow path. The liquid coolant is an ionizable coolant, wherein a deionizing unit is provided and fluidly connected to the flow path for deionizing the liquid coolant to decrease its conductivity.

An electric vehicle charging system includes a charging connector configured to receive a charging cable provided with electrical charging wires. The charging cable and/or the charging connector provide a flow path for guiding a liquid coolant, cooling the charging cable and/or the charging connector, and a thermal management unit for cooling the liquid coolant, the thermal management unit being fluidly connected to the flow path. The liquid coolant is an ionizable coolant, wherein a deionizing unit is provided and fluidly connected to the flow path for deionizing the liquid coolant to decrease its conductivity.

An electronic control unit (ECU) controls a vehicle capable of externally discharging an electric power via a discharge connector. The vehicle includes: an on-board inverter that adjusts the voltage of an alternating current (AC) power; and a vehicle inlet that discharges to the discharge connector the AC power output from the power converter when the discharge connector is connected to the vehicle inlet. The vehicle inlet has a CP terminal through which a control pilot (CPLT) signal is transmitted when the vehicle 1 is charged externally. The ECU includes a processor. The processor determines the voltage of the AC power output from the on-board inverter, based on the voltage of the CP terminal.

An electronic control unit (ECU) controls a vehicle capable of externally discharging an electric power via a discharge connector. The vehicle includes: an on-board inverter that adjusts the voltage of an alternating current (AC) power; and a vehicle inlet that discharges to the discharge connector the AC power output from the power converter when the discharge connector is connected to the vehicle inlet. The vehicle inlet has a CP terminal through which a control pilot (CPLT) signal is transmitted when the vehicle 1 is charged externally. The ECU includes a processor. The processor determines the voltage of the AC power output from the on-board inverter, based on the voltage of the CP terminal.

A robot apparatus for establishing a charging connection between a charging device and an energy storage unit of a motor vehicle, having a movement unit, by which the robot apparatus is movable in relation to the charging device and the motor vehicle, having a receptacle device, by which a charging element of the charging device can be received, can be coupled to a coupling element of the energy storage unit and subsequently released, and having a detection unit, by which a position of the coupling element on the motor vehicle is ascertainable, wherein the robot apparatus is connectable by a support device to the motor vehicle, whereby a force is transmittable from the robot apparatus to the motor vehicle.

A robot apparatus for establishing a charging connection between a charging device and an energy storage unit of a motor vehicle, having a movement unit, by which the robot apparatus is movable in relation to the charging device and the motor vehicle, having a receptacle device, by which a charging element of the charging device can be received, can be coupled to a coupling element of the energy storage unit and subsequently released, and having a detection unit, by which a position of the coupling element on the motor vehicle is ascertainable, wherein the robot apparatus is connectable by a support device to the motor vehicle, whereby a force is transmittable from the robot apparatus to the motor vehicle.

Disclosed are: an electric shock prevention cap having a novel structure such that the cap can be easily attached to a pair of terminal body parts so that a large holding force can be obtained and contact with opposing surfaces of the pair of terminal body parts can be prevented; and a connector equipped with the electric shock prevention cap. The electric shock prevention cap 10 includes: a pair of periphery-covering parts 12, 12 for covering, when attached to a pair of flat plate-like terminal body parts 42, 42 arranged side by side in a plate thickness direction, the peripheries of tip parts of the pair of terminal body parts 42, 42; and inner intrusion prevention parts 18 disposed between the pair of periphery-covering parts 12, 12 and connecting the pair of periphery-covering parts 12, 12 to each other.

Disclosed are: an electric shock prevention cap having a novel structure such that the cap can be easily attached to a pair of terminal body parts so that a large holding force can be obtained and contact with opposing surfaces of the pair of terminal body parts can be prevented; and a connector equipped with the electric shock prevention cap. The electric shock prevention cap 10 includes: a pair of periphery-covering parts 12, 12 for covering, when attached to a pair of flat plate-like terminal body parts 42, 42 arranged side by side in a plate thickness direction, the peripheries of tip parts of the pair of terminal body parts 42, 42; and inner intrusion prevention parts 18 disposed between the pair of periphery-covering parts 12, 12 and connecting the pair of periphery-covering parts 12, 12 to each other.