Pressure and speed control for a vehicle

We claim: 1. A controller comprising: a first sensor configured to sense a speed of a first set of wheels, the first set of wheels being coupled to an engine such that power output from the engine rotates the first set of wheels; a second sensor configured to sense a feed pressure of a fluid within a first conduit, the first conduit connecting an output from a fluid pump to an input to at least one motor, wherein the at least one motor is coupled to a second set of wheels such that power output from the at least one motor rotates the second set of wheels; a third sensor configured to sense a return pressure of the fluid within a second conduit, the second conduit connecting an output of the at least one motor to an input of the fluid pump; a fourth sensor configured to sense a speed of the second set of wheels; and a processor configured to select one of a plurality of control configurations for the fluid pump based on a ratio between the feed pressure and the return pressure, and further based on a ratio between the speed of the first set of wheels and the speed of the second set of wheels. 2. The controller of claim 1 , wherein the controller is configured to generate an output signal configured to transition the fluid pump to the one of the plurality of control configurations. 3. The controller of claim 2 , wherein the plurality of control configurations includes a first control configuration and a second control configuration, wherein the first control configuration is selected if the ratio of the feed pressure to the return pressure is less than a predetermined pressure ratio, and wherein the second control configuration is selected if the ratio of the speed of the first set of wheels to the speed of the second set of wheels is less than a predetermined speed ratio. 4. The controller of claim 3 , wherein the feed pressure is increased by increasing a pump displacement when the first control configuration is selected, and wherein the speed of the second set of wheels is decreased by decreasing the pump displacement when the second control configuration is selected. 5. The controller of claim 3 , wherein the predetermined pressure ratio is greater than a ratio of 1.0. 6. The controller of claim 1 , wherein the fluid pump is a variable displacement pump. 7. The controller of claim 1 , wherein the fluid is a hydraulic fluid. 8. The controller of claim 1 , wherein the at least one motor includes at least one of a variable displacement motor, a fixed displacement motor, or a two speed motor. 9. The controller of claim 1 , wherein a first motor of the at least one motor is coupled to first wheel of the second set of wheels and a second motor of the at least one motor is coupled to a wheel of the second set of wheels. 10. A method for controlling a speed of a vehicle, the method comprising: sensing a speed of a first set of wheels, the first set of wheels being coupled to an engine such that power output from the engine rotates the first set of wheels; sensing a feed pressure of a fluid within a first conduit, the first conduit connecting an output from a fluid pump to an input to an at least one motor, wherein the at least one motor is coupled to a second set of wheels such that power output from the at least one motor rotates the second set of wheels; sensing a return pressure of the fluid within a second conduit, the second conduit connecting an output of the at least one motor to an input of the fluid pump; sensing a speed of the second set of wheels; and selecting a control configuration for the fluid pump based on a ratio between the feed pressure and the return pressure, and further based on a ratio between the speed of the first set of wheels and the speed of the second set of wheels. 11. The method of claim 10 , further comprising: generating an output signal to control the fluid pump to operate according to the control configuration. 12. The method of claim 11 , wherein the control configuration includes a first control configuration and a second control configuration, wherein the first control configuration is selected if the ratio of the feed pressure to the return pressure is less than a predetermined pressure ratio, and wherein the second control configuration is selected if the ratio of the speed of the first set of wheels to the speed of the second set of wheels is below a predetermined speed ratio. 13. The method of claim 12 , further comprising: if the first control configuration is selected, increasing the feed pressure of the fluid; and if the second control configuration is selected, decreasing the feed pressure of the fluid. 14. The method of claim 12 , wherein the control configuration further includes a third control configuration, wherein the third control configuration is selected if neither the first control configuration nor the second control configuration is selected. 15. The method of claim 14 , further comprising: if the third control configuration is selected, maintaining the feed pressure of the fluid. 16. The method of claim 12 , wherein the predetermined pressure ratio is greater than a ratio of 1.0. 17. A machine comprising: an engine; a first set of wheels coupled to an output of the engine such that power output from the engine rotates the first set of wheels; a fluid pump coupled to the output of the engine; at least one motor coupled to the fluid pump by a first conduit and a second conduit, the first conduit connecting an output from the fluid pump to an input to the at least one motor, and the second conduit connecting an output of the at least one motor to an input to the fluid pump; a second set of wheels coupled to the at least one motor such that power output from the at least one motor rotates the second set of wheels; and a controller configured to generate an output signal indicative of a control configuration to the fluid pump, the controller including: a first sensor configured to sense a speed of the first set of wheels; a second sensor configured to sense a feed pressure of a fluid within the first conduit; a third sensor configured to sense a return pressure of the fluid within the second conduit; a fourth sensor configured to sense a speed of the second set of wheels; and a processor configured to determine the control configuration for the fluid pump based on a ratio between the feed pressure and the return pressure, and further based on a ratio between the speed of the first set of wheels and the speed of the second set of wheels. 18. The machine of claim 17 , wherein the machine is a motor grader. 19. The machine of claim 17 , wherein the at least one motor includes a first motor and a second motor, and wherein the second set of wheels includes a first wheel and a second wheel, the first motor being coupled to the first wheel and the second motor being coupled to the second wheel. 20. The machine of claim 17 , wherein the controller is a closed loop integral controller.