Power supply system for an overhead contact line

The invention claimed is: 1. A system for powering an overhead contact line, said overhead contact line including at least one contact wire comprising a plurality of conductive sections separated from each other by insulating sections, the system including a plurality of sub-stations for supplying electric power, each conductive section being connected, on a side of an upstream end of each conductive section, to an upstream sub-station via an upstream controlled switch and, on a side of a downstream end of each conductive section, to a downstream sub-station via a downstream controlled switch, each controlled switch being actuated by a corresponding control circuit, wherein the system further includes a detector associated with at least one of the plurality of conductive sections to be monitored and including a transmitter configured to apply a characteristic signal to an end from among the upstream end and the downstream end of said at least one of the plurality of conductive sections to be monitored and a receiver configured to receive the characteristic signal at the other end of said at least one of the plurality of conductive sections to be monitored, the receiver modifying a value of a state signal and applying it at least to a circuit for controlling an actuation of an opening of the downstream controlled switch and/or of the upstream controlled switch, wherein the detector of an associated conductive section to be monitored includes an upstream transceiver coupled with the upstream end and a downstream transceiver coupled with the downstream end of said conductive section to be monitored, the upstream transceiver including an upstream transmitter configured to apply a characteristic signal to the upstream end, the downstream transceiver including a downstream transmitter configured to apply a characteristic signal to the downstream end, the upstream transceiver including an upstream receiver configured to receive the characteristic signal of the downstream transceiver and to modify a value of an upstream state signal applied to an upstream control circuit for actuating the opening of the upstream controlled switch, the downstream transceiver including a downstream receiver configured to receive the characteristic signal of the upstream transceiver and to modify a value of a downstream state signal applied to a downstream control circuit for actuating the opening of the downstream controlled switch, and wherein the system further includes a controlled switch for circumventing a sub-station allowing, in a closed state, a connection together of two successive conductive sections, the state signal modified by at least one of the downstream transceiver and the upstream transceiver associated with a first conductive section being transmitted to a control circuit of a switch for connecting a second conductive section to another sub-station. 2. The system according to claim 1 , wherein the upstream transceiver applies the state signal to the downstream control circuit to which it is connected through an adapted control link, and in that the downstream transceiver applies the state to the upstream control circuit to which it is connected through the adapted control link. 3. The system according to claim 1 , wherein said characteristic signal applied by said downstream and upstream transceivers is a current, the downstream and upstream transceivers being coupled with the conductive section to be monitored via a capacitor so as to superpose said characteristic signal to the current of said conductive section to be monitored. 4. The system according to claim 3 , wherein each characteristic signal is frequency-modulated at a characteristic frequency. 5. The system according to claim 4 , wherein each of the upstream receiver and the downstream receiver includes a band pass filter centered on the characteristic frequency. 6. The system according to claim 1 , including a central controller configured to collect the state signals applied to different upstream and downstream control circuits of the system in order to keep updated a representation of said system. 7. The system according to claim 1 , for an overhead contact line including first and second contact wires, two conductive sections respectively belonging to the first and second wires and positioned parallel to each other, being connected in parallel between an output terminal of an upstream sub-station and an output terminal of a downstream sub-station, the system including a detector for each of said two conductive sections. 8. The system according to claim 7 , wherein the upstream end and the downstream end of each of said two conductive sections are connected to a common upstream controlled switch and to a common downstream controlled switch, respectively.