Systems and methods for charging an electric bus having a charging interface on its roof may include determining that an approaching bus is supposed to be charged at the charging station, lowering the charging head of the charging station to land on the roof of the bus, and moving the bus with the charge head on its roof to engage the charging head with the charging interface.

Systems and methods for charging an electric bus having a charging interface on its roof may include determining that an approaching bus is supposed to be charged at the charging station, lowering the charging head of the charging station to land on the roof of the bus, and moving the bus with the charge head on its roof to engage the charging head with the charging interface.

Systems and methods for charging an electric bus having a charging interface on its roof may include determining that an approaching bus is supposed to be charged at the charging station, lowering the charging head of the charging station to land on the roof of the bus, and moving the bus with the charge head on its roof to engage the charging head with the charging interface.

A system having electric consumers includes an electrical device including an operating device and wires supplying the consumer. A first wire is provided for conducting the first phase of a three-phase voltage during a normal operation, a second wire conducts a second phase of the three-phase voltage, and a third wire conducts a third phase of the three-phase voltage. The consumer is able to be supplied with the three-phase voltage from the wires during a normal operation. The operating device is configured so that: in a normal operation, the first wire is connected to the first phase of the three-phase voltage; and in a safety case, the first wire is separated from the first phase of the three-phase voltage and will be or is connected to the second phase of the three-phase voltage.

A system having electric consumers includes an electrical device including an operating device and wires supplying the consumer. A first wire is provided for conducting the first phase of a three-phase voltage during a normal operation, a second wire conducts a second phase of the three-phase voltage, and a third wire conducts a third phase of the three-phase voltage. The consumer is able to be supplied with the three-phase voltage from the wires during a normal operation. The operating device is configured so that: in a normal operation, the first wire is connected to the first phase of the three-phase voltage; and in a safety case, the first wire is separated from the first phase of the three-phase voltage and will be or is connected to the second phase of the three-phase voltage.

An unmanned aerial vehicle according to certain embodiments generally includes a chassis, a power supply mounted to the chassis, a control system operable to receive power from the power supply, at least one rotor operable to generate lift under control of the control system, a line having one end coupled to the chassis and an opposite free end, wherein the free end is positioned below the chassis, and a severing mechanism operable to sever the line under control of the control system.

Systems and methods for charging an electric bus having a charging interface on its roof may include determining that an approaching bus is supposed to be charged at the charging station, lowering the charging head of the charging station to land on the roof of the bus, and moving the bus with the charge head on its roof to engage the charging head with the charging interface.

Systems and methods for charging an electric bus having a charging interface on its roof may include determining that an approaching bus is supposed to be charged at the charging station, lowering the charging head of the charging station to land on the roof of the bus, and moving the bus with the charge head on its roof to engage the charging head with the charging interface.

The invention relates to a contact unit (24) for a fast charging system for electrically driven vehicles, in particular electric busses or the like, the fast charging system comprising a charging contact device and a contact device having a contact unit carrier, the contact unit carrier having the contact unit, a charging contact of the charging contact device being electrically connectable to the contact unit to form a contact pair, the contact device or the charging contact device comprising a positioning device, the contact unit carrier being positionable relative to the charging contact device by means of the positioning device in such a manner that an electrically conductive connection is formed between a vehicle and a stationary charging station, the contact unit comprising a contact element (25), the contact unit having a connecting lead for being connected to the vehicle or the charging station, the contact element being mounted on a pivot bearing (26) of the contact unit so as to be pivotable relative to the contact unit carrier.

A charging station for charging an electric bus is provided which includes a power rail extending along an axial direction above a plurality of electric buses parked in a parking space, a pantograph disposed in a lower portion of the power rail to be movable horizontally along the axial direction and expandable in a gravitational direction from above the electric bus to electrically contact the electric bus, and a controller configured to calculate a charging sequence of the plurality of electric buses based on position information of the plurality of electric buses, wherein the controller is configured to control horizontal movement of the pantograph and electrical contact with the electric bus according to the charging sequence so as to supply the power applied from an external power network through the power rail to the electric bus through the pantograph.