Track circuit power supply vital monitor

The invention claimed is: 1. A track circuit comprising: a power supply vital monitor adapted to monitor a power supply signal of railway systems; a plurality of track segments ( 11 , 12 ) of predetermined length, forming continuous rails, and electric joints ( 2 ), each consisting of a conductor, which connects together the rails ( 111 , 112 ) at ends of each track segments; and electric signal transmitting units ( 3 ) and receiving units ( 4 ) operatively coupled to each track segment ( 11 , 12 ) and adapted to receive and transmit train presence detection signals within each track segments and/or transmit communication signals between a train ( 7 ) and the track segments ( 11 , 12 ), each transmitting unit ( 3 ) and each receiving unit ( 4 ) being connected to a common power supply line ( 5 ), wherein: each receiving unit ( 4 ) comprises at least two parallel signal processing channels, which include a first ( 41 ) and a second ( 42 ) channel, each channel ( 41 , 42 ) comprising a receiver ( 411 , 421 ) connected to the track circuit and to a respective power supply sensor ( 412 , 422 ) connected to a common power supply line ( 5 ) through communication lines, each single communication line connecting the receiver with both the track circuit and the respective power supply sensor, each communication line having a first enabling/disabling device ( 413 , 423 ) in order to enable/disable a connection of the said receiver ( 411 , 421 ) with the corresponding track circuit, and a second enabling/disabling device ( 414 , 424 ) in order to enable/disable the connection of the said receiver ( 411 , 421 ) with the power supply sensor ( 412 , 422 ), and the receivers ( 411 , 421 ) being connected to an analyzing unit ( 44 ), which analyzes output signals of the said receivers ( 411 , 421 ). 2. The track circuit according to claim 1 , wherein each receiving unit comprises a timing device ( 34 ), which activates the first and second enabling/disabling devices ( 413 , 414 , 423 , 424 ) of each communication line according to predetermined timing rules. 3. The track circuit according to claim 2 , wherein the timing device ( 43 ) comprises a processor means for executing a logical program, wherein execution of said logical program causes said first and said second enabling/disabling devices ( 413 , 414 , 423 , 424 ) to operate in such a way that activation of the first enabling/disabling device ( 413 ) of the first channel ( 41 ) deactivates the second enabling/disabling device ( 414 ) of the first channel ( 41 ) and the first enabling/disabling device ( 423 ) of the second channel ( 42 ) and activate the second enabling/disabling device ( 424 ) of the second channel ( 42 ), and vice versa. 4. The track circuit according to claim 1 , further comprising a system that sets the track circuit in a safety-condition. 5. The track circuit according to claim 1 , wherein the power supply sensor ( 412 , 422 ) comprises an analyzing system that compares a power supply signal with characteristic parameters uniquely identifying the train presence detection signals. 6. The track circuit according to claim 1 , wherein the receiver ( 411 , 421 ) has a processing and control section configured as a 2oo2 architecture. 7. A method to evaluate failure of power supply in a track circuit for railway systems or the like, wherein the track circuit comprises: a plurality of track segment ( 11 , 12 ) of predetermined length, forming continuous rails, and electric joints, each consisting of a conductor, which connects together the rails ( 111 , 112 ) at ends of each track segments, and electric signal transmitting units ( 3 ) and receiving units operatively coupled with each track segment ( 11 , 12 ) for transmitting and receiving train presence detection signals within each track segments and/or transmitting or receiving communication signals between a train ( 7 ) and the track segments, each transmitting unit ( 3 ) and each receiving unit ( 4 ) being connected to a common power supply line ( 5 ), the method comprising: a) analyzing the signals received by the receiving units ( 4 ) through two processing channels, each receiving unit ( 4 ) comprising at least two parallel signal processing channels ( 41 , 42 ), which include a first and a second channel, each processing channel comprising a receiver ( 411 , 421 ) connected to the track circuit and to a respective power supply sensor ( 412 , 422 ) connected to the common power supply line ( 5 ), through communication lines, each single communication line connecting the receiver with both the track circuit and the respective power supply sensor, each communication line having a first enabling/disabling device ( 413 , 423 ) adapted to enable/disable a connection of the said receiver ( 411 , 421 ) with the corresponding track circuit and a second enabling/disabling device ( 414 , 424 ) adapted to enable/disable the connection of the said receiver ( 411 , 421 ) with the power supply sensor ( 412 , 422 ); b) connecting the receiver ( 411 , 421 ) belonging to the first signal processing channel ( 41 ) to the track circuit and disconnecting the receiver ( 411 , 421 ) belonging to the first signal processing channel ( 41 ) to the power supply sensor, disconnecting the receiver ( 411 , 421 ) belonging to the second signal processing channel ( 42 ) to the track circuit and connecting the receiver ( 411 , 421 ) belonging to the second signal processing channel ( 42 ) to the power supply sensor ( 412 , 422 ); c) analyzing output signals of said receivers ( 411 , 421 ) through an analyzing unit ( 44 ); and d) setting a status of the track segment ( 11 ) according to the output signal of the analyzing unit ( 44 ). 8. The method according to claim 7 , wherein step b) is achieved by activating the first enabling/disabling device ( 413 ) belonging to the first processing channel ( 41 ) and the second enabling/disabling device ( 424 ) belonging to the second processing channel ( 42 ) and deactivating the second enabling/disabling device ( 414 ) belonging to the first processing channel ( 41 ) and the first enabling/disabling device ( 423 ) belonging to the second processing channel ( 42 ). 9. The method according to claim 8 , wherein the activating/deactivating of the first and of the second enabling/disabling devices is achieved according to predetermined timing rules, each receiving unit comprising a timing device ( 43 ) which activates/deactivates the first and second enabling/disabling devices ( 413 , 414 , 423 , 424 ).