Irrigation motor and gearbox temperature monitoring and control system

Having thus described one or more embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A control system for monitoring a motor and wheel drive gearbox of an irrigation system drive train, the control system comprising: a motor sensor for sensing an operating state of the motor; a gearbox sensor for sensing an operating state of the wheel drive gearbox; and a controller configured to: receive data from the motor sensor representing the motor operating state; receive data from the gearbox sensor representing the gearbox operating state; determine whether the motor operating state exceeds a motor operating state threshold or indicates a rate of change above a motor operating state rate of change threshold; if the motor operating state exceeds the motor operating state threshold or indicates a rate of change above the motor operating state rate of change threshold, generate and transmit a command and/or enact an operating change so that the drive train continues to operate such that the motor operating state does not exceed the motor operating state threshold or indicates that the motor operating state rate of change does not exceed the motor operating state rate of change threshold; determine whether the gearbox operating state exceeds a gearbox operating state threshold or indicates a rate of change above a gearbox operating state rate of change threshold; and if the gearbox operating state exceeds the gearbox operating state threshold or indicates a rate of change above the gearbox operating state rate of change threshold, generate and transmit a command and/or enact an operating change so that the drive train continues to operate such that the gearbox operating state does not exceed the gearbox operating state threshold or indicates that the gearbox operating state rate of change does not exceed the gearbox operating state rate of change threshold. 2. The control system of claim 1 , wherein the motor operating state is a stator winding temperature. 3. The control system of claim 1 , wherein the motor operating state is an amount of electric current being delivered to the motor. 4. The control system of claim 1 , wherein the gearbox operating state is a gearbox temperature. 5. The control system of claim 1 , wherein the operating change is a change in commanded motor speed. 6. The control system of claim 5 , wherein the change in commanded motor speed is a decrease in commanded motor speed if the commanded motor speed is over 60 Hz. 7. The control system of claim 5 , wherein the change in commanded motor speed is an increase in commanded motor speed if the commanded motor speed is lower than 60 Hz. 8. The control system of claim 1 , wherein the operating change is a decrease in an on cycle time of the motor. 9. The control system of claim 1 , wherein the command is an activation of a motor cooling mechanism or a wheel drive gearbox cooling mechanism. 10. The control system of claim 1 , wherein the controller is further configured to transmit a notification to a remote device indicating that an operating state threshold or an operating state rate of change threshold has been exceeded. 11. A method of monitoring a motor and wheel drive gearbox of an irrigation system drive train, the method comprising the steps of: receiving data from a motor sensor representing an operating state of the motor; receiving data from the gearbox sensor representing an operating state of the wheel drive gearbox; determining whether the motor operating state exceeds a motor operating state threshold or indicates a rate of change above a motor operating state rate of change threshold; if the motor operating state exceeds the motor operating state threshold or indicates a rate of change above the motor operating state rate of change threshold, generating and transmitting a command and/or enacting an operating change so that the irrigation system drive train continues operating such that the motor operating state does not exceed the motor operating state threshold or indicates that the motor operating state rate of change does not exceed the motor operating state rate of change threshold; determining whether the gearbox operating state exceeds a gearbox operating state threshold or indicates a rate of change above a gearbox operating state rate of change threshold; and if the gearbox operating state exceeds the gearbox operating state threshold or indicates a rate of change above the gearbox operating state rate of change threshold, generating and transmitting a command and/or enacting an operating change so that the irrigation system drive train continues to operate such that the gearbox operating state does not exceed the gearbox operating state threshold or indicates that the gearbox operating state rate of change does not exceed the gearbox operating state rate of change threshold. 12. The method of claim 11 , wherein the motor operating state is a stator winding temperature. 13. The method system of claim 11 , wherein the motor operating state is an amount of electric current being delivered to the motor. 14. The method of claim 11 , wherein the gearbox operating state is a gearbox temperature. 15. The method of claim 11 , wherein the operating change is a change in commanded motor speed. 16. The method of claim 15 , wherein the change in commanded motor speed is a decrease in commanded motor speed if the commanded motor speed is over 60 Hz. 17. The method of claim 15 , wherein the change in commanded motor speed is an increase in commanded motor speed if the commanded motor speed is lower than 60 Hz. 18. The method of claim 11 , wherein the operating change is a decrease in an on cycle time of the motor. 19. The method of claim 11 , wherein the command is an activation of a motor cooling mechanism or a wheel drive gearbox cooling mechanism. 20. A control system for monitoring a motor or a wheel drive gearbox of an irrigation system drive train, the control system comprising: a controller; and at least one of: a motor sensor for sensing an operating state of the motor; and a gearbox sensor for sensing an operating state of the wheel drive gearbox, the controller being configured to: receive data from the motor sensor representing the motor operating state or from the gearbox sensor representing the gearbox operating state; if the data is received from the motor sensor: determine whether the motor operating state exceeds a motor operating state threshold or indicates a rate of change above a motor operating state rate of change threshold; and if the motor operating state exceeds the motor operating state threshold or indicates a rate of change above the motor operating state rate of change threshold, generate and transmit a command and/or enact an operating change so that the drive train continues to operate such that the motor operating state does not exceed the motor operating state threshold or indicates that the motor operating state rate of change does not exceed the motor operating state rate of change threshold; and if the data is received from the gearbox sensor: determine whether the gearbox operating state exceeds a gearbox operating state threshold or indicates a rate of change above a gearbox operating state rate of change threshold; and if the gearbox operating state exceeds the gearbox operating state threshold or indicates a rate of change above the gearbox operating state rate of change threshold, generate and transmit a command