Turbine control system

The invention claimed is: 1. A turbine control system, comprising: a speed probe detecting a speed of a turbine; a turbine valve controlling a flow of a fluid or a gas to or from the turbine; a controller in communication with the speed probe and the turbine valve, the controller receiving a speed signal from the speed probe, and the controller sending a first signal and a second signal to the turbine valve, the first signal comprising a valve position command to change a position of the turbine valve in response to the speed signal and the second signal comprising a support function that does not command a change in position of the turbine valve in response to the speed signal, wherein the controller outputs the first signal at a faster rate than the second signal. 2. The turbine control system according to claim 1 , further comprising a speed wheel attached to and rotatable with the turbine, the speed probe identifying teeth of the speed wheel as the teeth pass by the speed probe. 3. The turbine control system according to claim 1 , further comprising a speed monitoring module, the speed monitoring module being in communication with the speed probe, and the speed monitoring module being in communication with the controller through an I/O bus. 4. The turbine control system according to claim 1 , wherein the support function comprises a diagnostic function, a feedback function, a calibration function or a test function and data associated therewith. 5. The turbine control system according to claim 1 , wherein the controller processes tasks in a fast cycle and a slow cycle, the first signal being processed in the fast cycle, and the second signal being processed in the slow cycle. 6. The turbine control system according to claim 1 , further comprising a valve positioning module, the valve positioning module being in communication with the turbine valve, and the valve positioning module being in communication with the controller through an I/O bus. 7. The turbine control system according to claim 6 , further comprising a plurality of the valve positioning module and a plurality of the turbine valve, each of the valve positioning modules being in communication with a separate one of the turbine valve, and the controller separately communicates with each of the plurality of the valve positioning module to send the second signal comprising the support function, each of the support functions thereby corresponding to a particular one of the plurality of the valve positioning module. 8. The turbine control system according to claim 7 , wherein each of the plurality of the turbine valve comprises a fuel valve, a bypass valves, a stop valve or a governor valve. 9. The turbine control system according to claim 7 , wherein each of the plurality of the valve positioning module comprises a separate circuit board and processor therein. 10. The turbine control system according to claim 7 , wherein the controller communicates with the plurality of the valve positioning module with packets, each packet containing at least one address associated with one of the plurality of the valve positioning module. 11. The turbine control system according to claim 10 , wherein the first signal comprises a first type of packet containing multiple addresses associated with more than one of the plurality of the valve positioning module, the first type of packet further containing one of the valve position command for each of the multiple addresses. 12. The turbine control system according to claim 11 , wherein the first type of packet contains a multicast flag indicating that all of the plurality of the valve positioning module must read the packet. 13. The turbine control system according to claim 10 , wherein the second signal comprises a second type of packet containing only one address associated with only one of the plurality of the valve positioning module. 14. The turbine control system according to claim 13 , wherein the plurality of the valve positioning module ignore the second type of packet if the packet does not contain the address associated with the respective valve positioning module. 15. The turbine control system according to claim 1 , further comprising a valve positioning module, the valve positioning module being in communication with the turbine valve, and the valve positioning module being in communication with the controller through an I/O bus, further comprising a plurality of the valve positioning module and a plurality of the turbine valve, each of the valve positioning modules being in communication with a separate one of the turbine valve, and the controller separately communicates with each of the plurality of the valve positioning module to send the second signal comprising the support function, each of the support functions thereby corresponding to a particular one of the plurality of the valve positioning module, and wherein the controller processes tasks in a fast cycle and a slow cycle, the first signal being processed in the fast cycle, and the second signal being processed in the slow cycle. 16. The turbine control system according to claim 15 , wherein the controller communicates with the plurality of the valve positioning module with packets, each packet containing at least one address associated with one of the plurality of the valve positioning module, and the first signal is contained in a first type of packet containing multiple addresses associated with more than one of the plurality of the valve positioning module, the first type of packet further containing one of the valve position command for each of the multiple addresses. 17. The turbine control system according to claim 16 , wherein the first type of packet contains a multicast flag indicating that all of the plurality of the valve positioning module must read the packet. 18. The turbine control system according to claim 17 , wherein the second signal is contained in a second type of packet containing only one address associated with only one of the plurality of the valve positioning module, and the plurality of the valve positioning module ignore the second type of packet if the packet does not contain the address associated with the respective valve positioning module. 19. The turbine control system according to claim 18 , further comprising a speed wheel attached to and rotatable with the turbine, the speed probe identifying teeth of the speed wheel as the teeth pass by the speed probe, wherein the support function comprises a diagnostic function, a feedback function, a calibration function or a test function and data associated therewith, and each of the plurality of the valve positioning module comprises a separate circuit board and processor therein. 20. The turbine control system according to claim 1 , further comprising a speed monitoring module, the speed monitoring module being in communication with the speed probe, and the speed monitoring module being in communication with the controller through an I/O bus, wherein each of the plurality of the turbine valve comprises a fuel valve, a bypass valves, a stop valve or a governor valve.