Electronic throttle system for an aircraft

What is claimed is: 1. A throttle system for providing throttle control for an engine on an aircraft, comprising: a throttle quadrant assembly (TQA) module in electrical communication with a throttle lever for receiving a position signal indicative of a magnitude for a throttle of the engine, the TQA module being operative to convert the position signal into a throttle signal; an engine electronic control (EEC) module connected to the TQA module to translate the throttle signal into a throttle control signal for the engine; and a power line connecting the TQA module to the EEC module and carrying power from the EEC module to the TQA module, wherein the power line carries the throttle signal from the TQA module to the EEC module and wherein the power supplied by the EEC module to the TQA module is independent of aircraft power when the engine is running. 2. The throttle system of claim 1 , wherein the power line carries both the throttle signal and the power by relying on power line communication (PLC). 3. The throttle system of claim 1 , further comprising: a rotary variable differential transformer (RVDT) connected to the throttle lever, wherein the RVDT comprises at least three coils adapted to detect the position of the throttle lever and generate the position signal commensurate therewith. 4. The throttle system of claim 1 , further comprising a wiring block comprising: the power line; and a ground line extending between the TQA module to the EEC module. 5. The throttle system of claim 3 , wherein the TQA module comprises an RVDT demodulator connected to the RVDT that receives the position signal and generates a demodulated position signal. 6. The throttle system of claim 5 , wherein the TQA module further comprises a TQA controller connected to the RVDT demodulator that receives the demodulated position signal and generates a controller throttle signal. 7. The throttle system of claim 6 , wherein the TQA module further comprises a TQA transceiver connected to the TQA controller to translate the controller throttle signal into the throttle signal before introducing the throttle signal to the power line. 8. The throttle system of claim 7 , wherein the EEC module comprises an EEC transceiver connected to the power line to receive the throttle signal and decode the throttle signal to recreate the controller throttle signal. 9. The throttle system of claim 8 , wherein the EEC module further comprises an EEC controller that receives the controller throttle signal from the EEC transceiver and generates a throttle control signal to be sent to the engine. 10. The throttle system of claim 1 , wherein the EEC module comprises an EEC transceiver connected to the power line to receive the throttle signal and decode the throttle signal to create a controller throttle signal. 11. The throttle system of claim 10 , wherein the EEC module further comprises an EEC controller that receives the controller throttle signal from the EEC transceiver and generates a throttle control signal to be sent to the engine. 12. The throttle system of claim 1 , wherein the EEC module comprises a main power bus that provides power to the EEC module and the TQA module. 13. The throttle system of claim 1 , wherein the main power bus provides power to the TQA module via the power line. 14. A throttle quadrant assembly (TQA) module in communication with an engine electronic control (EEC) module, a power line connecting the TQA module to the EEC module and carrying power from the EEC module to the TQA module, the TQA module comprising: a demodulator in electrical communication with at least one position measurement sensor that is connected to a throttle lever, the demodulator receiving from the at least one position measurement sensor a throttle lever position signal and generating from the throttle lever position signal a demodulated position signal; a TQA controller in electrical communication with the demodulator for receiving the demodulated position signal and generating a controller throttle signal; and a TQA transceiver connected to the TQA controller to translate the controller throttle signal into a throttle signal before introducing the throttle signal into the power line for transmission towards the EEC module over the power line, wherein the power supplied by the EEC module to the TQA module is independent of aircraft power when an engine is running. 15. A method of operation for a throttle quadrant assembly (TQA) module in electrical communication with a throttle lever of an aircraft, the method comprising: receiving a position signal indicative of a position of the throttle lever from a position measurement sensor, the position signal being indicative of a magnitude for a throttle of an engine; processing the position signal in order to generate a throttle signal suitable for transmission to an engine electronic control (EEC) module; and introducing the throttle signal to a power line connecting the TQA module to the EEC module for carrying power from the EEC module to the TQA module, the throttle signal being introduced into the power line in order to transmit the throttle signal from the TQA module to the engine electronic control (EEC) module, wherein the power supplied by the EEC to the TQA module is independent of aircraft power when the engine is running. 16. The throttle system of claim 9 , wherein the EEC module comprises a main power bus that provides power to the EEC module and the TQA module. 17. The throttle system of claim 11 , wherein the EEC module comprises a main power bus that provides power to the EEC module and the TQA module.