Controlling a conveyor in a mining system

What is claimed is: 1. A conveyor for a mining system, the conveyor comprising: a first sprocket and a second sprocket; a chain associated with the first sprocket and the second sprocket; a drive mechanism coupled to the first sprocket or the second sprocket, the drive mechanism operable to drive the first sprocket or the second sprocket; a first sensor operable to generate a first signal related to a characteristic of the first sprocket or the second sprocket; a second sensor operable to generate a second signal related to a characteristic of the chain; and a controller operable to receive the first signal from the first sensor, determine a value for the characteristic of the first sprocket or the second sprocket based on the first signal, receive the second signal from the second sensor, determine a value for the characteristic of the chain based on the second signal, compare the value for the characteristic of the first sprocket or the second sprocket and the value for the characteristic of the chain, and determine an amount of slack in the chain based on the comparison, wherein the characteristic of the chain includes a chain position, a chain speed, or a chain acceleration. 2. The conveyor of claim 1 , wherein the characteristic of the first sprocket or the second sprocket includes a sprocket rotational position, a sprocket rotational speed, or a sprocket rotational acceleration. 3. The conveyor of claim 2 , wherein the first sensor is a tachometer. 4. The conveyor of claim 1 , wherein the second sensor is a proximity sensor. 5. The conveyor of claim 1 , wherein the drive mechanism includes a motor. 6. The conveyor of claim 1 , further comprising a hydraulic cylinder operable for controlling a distance between the first sprocket and the second sprocket, the hydraulic cylinder having a hydraulic cylinder position. 7. The conveyor of claim 6 , wherein the controller is further operable to modify the hydraulic cylinder position based on the amount of slack in the chain to control the distance between the first sprocket and the second sprocket. 8. A method of determining an amount of slack in a chain of a conveyor in a mining system, the method comprising: receiving, at a processor, a first signal associated with a characteristic of a first sprocket or a second sprocket; determining, using the processor, a value for the characteristic of the first sprocket or the second sprocket based on the first signal; receiving, at the processor, a second signal associated with a characteristic of a chain; determining, using the processor, a value for the characteristic of the chain based on the second signal; comparing, using the processor, the value for the characteristic of the first sprocket or the second sprocket and the value for the characteristic of the chain; and determining, using the processor, the amount of slack in the chain based on the comparison, wherein the second signal is related to a chain position, a chain speed, or a chain acceleration. 9. The method of claim 8 , wherein the first signal is related to a sprocket rotational position, a sprocket rotational speed, or a sprocket rotational acceleration. 10. The method of claim 9 , wherein the first signal is generated by a tachometer associated with the first sprocket or the second sprocket. 11. The method of claim 8 , wherein the second signal is generated by a proximity sensor. 12. The method of claim 8 , further comprising adjusting a hydraulic cylinder position based on the amount of slack in the chain to control a distance between the first sprocket and the second sprocket. 13. A conveyor for a mining system, the conveyor comprising: a first sprocket and a second sprocket; a monitored zone having a first monitored position and a second monitored position; a chain associated with the first sprocket and the second sprocket; a drive mechanism coupled to the first sprocket or the second sprocket, the drive mechanism operable to drive the first sprocket or the second sprocket; a first sensor operable to generate a first signal related to a number of chain links passing the first monitored position of the monitored zone; a second sensor operable to generate a second signal related to a number of chain links passing the second monitored position of the monitored zone; and a controller operable to receive the first signal from the first sensor, determine the number of chain links passing the first monitored position based on the first signal, receive the second signal from the second sensor, determine the number of chain links passing the second monitored position based on the second signal, compare the number of chain links passing the first monitored position and the number of chain links passing the second monitored position, and determine an amount of slack in the chain based on the comparison. 14. The conveyor of claim 13 , wherein the first signal is related to a sprocket rotational position, a sprocket rotational speed, or a sprocket rotational acceleration. 15. The conveyor of claim 14 , wherein the first sensor is a tachometer. 16. The conveyor of claim 13 , wherein the second sensor is a proximity sensor. 17. The conveyor of claim 13 , wherein the drive mechanism includes a motor. 18. The conveyor of claim 13 , further comprising a hydraulic cylinder operable for controlling a distance between the first sprocket and the second sprocket, the hydraulic cylinder having a hydraulic cylinder position. 19. The conveyor of claim 18 , wherein the controller is further operable to modify the hydraulic cylinder position based on the amount of slack in the chain to control the distance between the first sprocket and the second sprocket. 20. A method of determining an amount of slack in a chain of a conveyor in a mining system, the method comprising: receiving, at a processor, a first signal related to a number of chain links passing a first monitored position of a monitored zone; determining, using the processor, the number of chain links passing the first monitored position based on the first signal; receiving, at the processor, a second signal related to a number of chain links passing the second monitored position of the monitored zone; determining, using the processor, the number of chain links passing the second monitored position based on the second signal; comparing, using the processor, the number of chain links passing the first monitored position and the number of chain links passing the second monitored position; and determining, using the processor, the amount of slack in the chain based on the comparison. 21. The method of claim 20 , wherein the first signal is related to a sprocket rotational position, a sprocket rotational speed, or a sprocket rotational acceleration. 22. The method of claim 21 , wherein the first signal is generated by a tachometer associated with the first sprocket or the second sprocket. 23. The method of claim 20 , wherein the second signal is generated by a proximity sensor. 24. The method of claim 20 , further comprising adjusting a hydraulic cylinder position based on the amount of slack in the chain to control a distance between the first sprocket and the second sprocket.