Providing a vehicle with electric energy using induction and a rectifier

The invention claimed is: 1. An arrangement for providing a vehicle with electric energy, the arrangement comprising: a receiving device adapted to receive an alternating electromagnetic field and to produce an alternating electric current by electromagnetic induction, wherein: the receiving device comprises at least one inductance which is formed by an electrically conducting material for producing one phase of the alternating electric current by the electromagnetic induction, each inductance producing one phase of the alternating electric current at a resonance frequency at which the phase of the alternating electric current is produced in response to the alternating electromagnetic field of corresponding frequency being received by the receiving device, each inductance connected to a rectifier for rectifying the alternating electric current and thereby producing a direct electric current, the rectifier comprises an automatically controllable switch which is arranged such that closing the switch results in a short circuit across the at least one inductance, or a plurality of automatically controllable switches which is arranged such that closing the switches results in a short circuit across the at least one inductance, the arrangement comprises a control device which is adapted to control the automatically controllable switch or the plurality of automatically controllable switches, and the control device is adapted to switch on and off the automatically controllable switch or the plurality of automatically controllable switches at a frequency which is smaller than the resonance frequency. 2. The arrangement of claim 1 , wherein the receiving device comprises a plurality of phase lines of electrically conducting material, wherein each phase line comprises one of the inductances, each inductance being adapted to produce one of a plurality of phases of the alternating electric current and wherein the phase lines are connected to each other to form a star point connection at one end of the phase line and are connected to the rectifier at the opposite end of the phase line. 3. The arrangement of claim 2 , wherein each of the opposite ends of the phase lines is connected to one of a plurality of bridges of the rectifier, wherein each bridge comprises two one-way valves which are connected in series to each other, wherein each valve is adapted to conduct an electric current in one direction only and wherein at least one of the valves of each bridge is a combined with one of the automatically controllable switches, so that—if the switch is on—an electric current can flow in the opposite direction through the valve or can bypass the valve in the opposite direction. 4. The arrangement of claim 1 , wherein the at least one automatically controllable switch is combined with a valve of the rectifier, wherein the valve is adapted to conduct an electric current in one direction only and wherein—if the switch is on—an electric current can flow in the opposite direction through the valve or can bypass the valve in the opposite direction, wherein the control device is adapted to enable switching on the switch only while the size of the electric current through the valve is zero or is smaller than a predetermined threshold value. 5. The arrangement of claim 1 , wherein the control device comprises a controller which is adapted to control a ratio of time intervals while each automatically controllable switch is on—and therefore the short circuit exists—to time intervals while each automatically controllable switch is off. 6. The arrangement of claim 1 , wherein the control device is adapted to control the switching of each automatically controllable switch depending on the size(s) of the voltage and/or current at the direct current side of the rectifier. 7. The arrangement of claim 6 , wherein the arrangement comprises a storage for storing electric energy which is delivered by the rectifier, wherein the rectifier is connected to the storage and wherein the control device is adapted to control the switching of each automatically controllable switch depending on the size(s) of the voltage and/or current which is required for charging the storage. 8. A vehicle comprising the arrangement of claim 1 , wherein the rectifier is connected to a storage for storing electric energy. 9. A method of operating a vehicle, in particular a track bound vehicle and/or a road automobile, using electric energy, wherein an alternating electromagnetic field is received and is used to produce an alternating electric current by electromagnetic induction, the alternating electromagnetic field is received by one or more inductances, each of which is formed by an electrically conducting material and which produces one phase of the alternating electric current by the electromagnetic induction, each inductance produces one phase of the alternating electric current at a resonance frequency, the alternating electric current is rectified by a rectifier and thereby a direct electric current is produced, the rectifier is operated using an automatically controllable switch or a plurality of automatically controllable switches which, when temporarily closed effects a short circuit across the one or more inductances, and the at least one automatically controllable switch is controlled by a control device so that each automatically controllable switch is switched on and off at a frequency which is smaller than the resonance frequency. 10. The method of claim 9 , wherein the alternating electric current is produced using a plurality of phase lines of electrically conducting material, wherein each phase line comprises one of the inductances which produces one of a plurality of phases of the alternating electric current. 11. The method of claim 9 , wherein the rectifier comprises a valve which is used to rectify the alternating electric current, wherein the automatically controllable switch is combined with the valve, wherein the valve conducts—in a first operating state while the switch is off—an electric current in one direction only and the valve or a bypass of the valve can conduct—in a second operating state while the switch is on—an electric current in the opposite direction, wherein switching on the switch is enabled only while the size of the electric current through the valve is zero or is smaller than a predetermined threshold value. 12. The method of claim 9 , wherein the ratio of the time intervals while each automatically controllable switch is on—and therefore the short circuit exists—to the time intervals while each automatically controllable switch is off is controlled by the control device. 13. The method of claim 9 , wherein the control device controls the switching of each automatically controllable switch depending on the size(s) of the voltage and/or current at a direct current side of the rectifier. 14. The method of claim 13 , wherein electric energy is delivered by the rectifier to an energy storage of the vehicle and wherein the control device controls the switching of each automatically controllable switch depending on the size(s) of the voltage and/or current which is required for charging the storage. 15. A method of manufacturing a vehicle, in particular a track bound vehicle and/or a road automobile, comprising the following steps: providing a receiving device adapted to receive an alternating electromagnetic field and to produce an alternating electric current by electromagnetic induction, providing for the receiving device one or more inductances, each of which is formed by an electrically conducting material for producing one phase of th