Managing a supply of gaseous fuel on a tender car

What is claimed is: 1. An apparatus for managing a supply of gaseous fuel on a tender car for a locomotive comprising: a tender controller configured to interface with a pumping and vaporizing apparatus and a communication link for exchanging information with a locomotive controller, said tender controller programmed: to receive a command signal from said locomotive controller through said communication link commanding delivery of gaseous fuel from said tender car to said locomotive; to transfer at least one status signal through said communication link to said locomotive controller indicating status of said tender car; with a state machine for managing a plurality of operational modes of said tender car, said state machine responsive to said command signal and said at least one status signal to transition between respective operational modes, said state machine comprising a plurality of states representative of said plurality of operational modes, said plurality of states comprising at least one of: a standby state, a start-up state, a deliver state, a refill state, a disabled state, and a drain state; and to disable delivery of gaseous fuel to said locomotive when said state machine is in one of said standby state, said start-up state, said refill state, said disabled state and said drain state. 2. The apparatus of claim 1 , wherein said communication link comprises at least one of a digital interface, an analog interface, a synchronous communication bus and an asynchronous communication bus. 3. The apparatus of claim 1 , wherein said communication link is separable from said tender car. 4. The apparatus of claim 1 , wherein said command signal is a gas request signal and wherein said tender controller is further programmed to receive a status signal from said locomotive controller, said status signal from said locomotive controller including a locomotive to tender car handshake signal. 5. The apparatus of claim 1 , wherein said at least one status signal comprises a tender car to locomotive handshake signal, a tender car fault free signal or a tender car ready to deliver gaseous fuel signal. 6. The apparatus of claim 1 , wherein said tender controller is configured to actuate at least one valve in a fill piping and programmed to command said at least one valve in a fill piping to open when said state machine is in said refill state. 7. The apparatus of claim 1 , wherein said tender controller is configured to actuate at least one valve in a drain piping and programmed to command said at least one valve in a drain piping to open when said state machine is in said drain state. 8. The apparatus of claim 1 , wherein said gaseous fuel is at least one of butane, ethane, hydrogen, methane, propane, natural gas and mixtures of these fuels. 9. An apparatus for managing a supply of gaseous fuel on a tender car for a locomotive comprising: a tender controller configured to interface with a pumping and vaporizing apparatus and a communication link for exchanging information with a locomotive controller, said tender controller programmed: to receive a command signal from said locomotive controller through said communication link commanding delivery of gaseous fuel from said tender car to said locomotive; to transfer at least one status signal through said communication link to said locomotive controller indicating status of said tender car; with a state machine for managing a plurality of operational modes of said tender car, said state machine responsive to said command signal and said at least one status signal to transition between respective operational modes, said state machine comprises a plurality of states representative of said plurality of operational modes, said plurality of states comprising at least one of: a standby state, a start-up state, a deliver state, a refill state, a disabled state, and a drain state; and to disable delivery of gaseous fuel to said locomotive when said locomotive controller sends a shutdown signal to said tender controller. 10. A method of managing a supply of gaseous fuel on a tender car for a locomotive comprising: receiving, on said tender car, a command signal from said locomotive commanding delivery of gaseous fuel from said tender car to said locomotive; transmitting at least one status signal from said tender car to said locomotive indicating status of said tender car; representing a plurality of operational modes of said tender car as a plurality of states, said plurality of states comprising at least one of: a standby state, a start-up state, a deliver state, a refill state, a disabled state, and a drain state; transitioning between said plurality of states in response to said command signal and said at least one status signal; and disabling delivery of gaseous fuel to said locomotive when a current state of said locomotive is at least one of said standby state, said start-up state, said refill state, said disabled state and said drain state. 11. The method of claim 10 , further comprising receiving a status signal from said locomotive, said status signal from said locomotive including a locomotive to tender car handshake signal and wherein said command signal is a gas request signal. 12. The method of claim 10 , wherein said at least one status signal comprises a tender car to locomotive handshake signal, a tender car fault free signal or a tender car ready to deliver gaseous fuel signal. 13. The method of claim 10 , further comprising commanding at least one valve in a fill piping to open when a current state of said locomotive is said refill state. 14. The method of claim 10 , further comprising commanding at least one valve in a drain piping to open when a current state of said locomotive is said drain state. 15. The method of claim 10 , wherein said gaseous fuel is at least one of butane, ethane, hydrogen, methane, propane, natural gas and mixtures of these fuels. 16. A method of managing a supply of gaseous fuel on a tender car for a locomotive comprising: receiving, on said tender car, a command signal from said locomotive commanding delivery of gaseous fuel from said tender car to said locomotive; transmitting at least one status signal from said tender car to said locomotive indicating status of said tender car; representing a plurality of operational modes of said tender car as a plurality of states, said plurality of states comprising at least one of: a standby state, a start-up state, a deliver state, a refill state, a disabled state, and a drain state; transitioning between said plurality of states in response to said command signal and said at least one status signal; and disabling delivery of gaseous fuel to said locomotive when said locomotive sends a shutdown signal to said tender car.