Redundant VDT with DC interface

The invention claimed is: 1. A position sensing system for sensing a position of an input shaft of a variable differential transformer (VDT) comprising: said VDT comprising a primary coil configured to provide a magnetic field, and first and second secondary coils electromagnetically coupled to the primary coil, and wherein movement of said input shaft varies an AC voltage induced in each of the secondary coils, said varied induced AC voltages thereby indicating said positions of said shaft; wherein the first secondary coil is connected to a first output circuit with a first AC/DC converting means configured to convert the AC voltage induced in the first secondary coil to a first DC output signal, and wherein the second secondary coil is connected to a second output circuit with a second AC/DC converting means configured to convert the AC voltage induced in the second secondary coil to a second DC output signal; wherein said first and second DC output signals each indicate an individual position of said input shaft, and wherein the first DC output signal is provided to a first independent output, and the second DC output signal is provided to a second independent output. 2. The position sensing system of claim 1 , wherein each of the first and second AC/DC converting means configured to output said first and second DC output signals comprises a RMS to DC convertor. 3. The position sensing system of claim 1 , comprising a DC input connected to said VDT. 4. The position sensing system of claim 3 , further comprising a lightning and electromagnetic interference protection unit connected between said DC input and said VDT. 5. The system of claim 3 , further comprising an AC excitation generation unit positioned between said DC input and said VDT, and configured to condition said DC input to provide AC excitation to said VDT. 6. The system of claim 1 , wherein each output circuit further comprises a gain calibration unit. 7. The system of claim 6 , wherein each gain calibration unit is operatively connected to a thermistor to adjust the output gain of the gain calibration unit. 8. The system of any of claim 7 , wherein each output circuit further comprises an offset calibration unit. 9. A pilot control unit comprising: the position sensing system of claim 1 ; wherein said shaft is connected to a component of said pilot control unit, and said position of said shaft indicates a position of said component of said pilot control unit. 10. A method for detecting a position of an input shaft of a variable differential transformer (VDT), comprising a primary coil configured to provide a magnetic field, and first and second secondary coils electromagnetically coupled to the primary coil, and wherein movement of said input shaft varies an AC voltage induced by each of the secondary coils, said varied induced AC voltages thereby indicating said positions of said shaft; wherein the first secondary coil is connected to first output circuit, and wherein the second secondary coil is connected to a second output circuit; said method comprising: converting with a first AC/DC converting means the AC voltage induced in the first secondary coil to a first DC output signal; converting with a second AC/DC converting means the AC voltage induced in the second secondary coil to a second DC output signal; providing the first DC output signal to a first independent output; and providing the second DC output signal to a second independent output wherein the first and second DC output signals each indicate an individual position of said input shaft. 11. The method of claim 10 , further comprising providing a DC input to said VDT and generating an AC input from said DC input and supplying said AC input to said VDT. 12. The method of claim 10 , wherein each output circuit further comprises a gain calibration unit and/or an offset calibration unit.