Hydraulic control system and method

The invention claimed is: 1. A hydraulic control system for a machine, comprising: a closed-loop hydraulic circuit including a hydraulic motor and at least one variable displacement pump configured to supply the at least one hydraulic motor with pressurized hydraulic fluid; at least one actuator configured to adjust the displacement of the at least one variable displacement pump; and a control unit configured to: receive a first input indicative of a desired displacement of the at least one variable displacement pump; receive a second input indicative of an actual displacement of the at least one variable displacement pump; and control the at least one actuator to adjust the displacement of the at least one variable displacement pump in a first control mode when the actual displacement does not match the desired displacement, and in a second control mode when the actual displacement matches the desired displacement, wherein the second control mode is a velocity control mode in which the control unit controls the at least one actuator such that the displacement of the at least one variable displacement pump is maintained at the desired displacement to rotate the at least one hydraulic motor with substantially constant speed. 2. The hydraulic control system of claim 1 , wherein the at least one actuator includes at least one hydraulic actuator, the hydraulic control system further comprising: a pilot valve assembly configured to supply the at least one hydraulic actuator with hydraulic fluid in accordance with a command from the control unit. 3. The hydraulic control system of claim 2 , wherein the pilot valve assembly includes a first pilot valve configured to supply pressurized fluid to a first input of the at least one hydraulic actuator and a second pilot valve configured to supply pressurized fluid to a second input of the at least one hydraulic actuator under the control of the control unit. 4. The hydraulic control system of claim 3 , further comprising: a pilot supply pressure sensor configured to detect a pressure of the pilot fluid that is supplied to the first pilot valve and the second pilot valve; a pair of pilot pressure sensors configured to detect the pressure of the fluid supplied to the first input and the second input; and a pair of system pressure sensors configured to detect the system pressure in the closed-loop hydraulic circuit upstream and downstream of the at least one variable displacement pump, wherein the control unit is configured to control the pilot valves based at least in part on detection results from one or more of the pilot supply pressure sensor, the pair of pilot pressure sensors, and the pair of system pressure sensors. 5. The hydraulic control system of claim 1 , further comprising: an input device configured to receive an operator input corresponding to a desired speed and direction of rotation of a swing mechanism of the machine, wherein the control unit is operatively coupled to the input device and configured to determine the desired displacement of the at least one variable displacement pump based at least in part on the desired speed and direction of rotation. 6. The hydraulic control system of claim 5 , wherein the first control mode is a pressure control mode in which the control unit controls the at least one actuator such that a system pressure in the closed-loop hydraulic circuit does not exceed a maximum desired system pressure set at least in part on the basis of the absolute value of the desired speed of the swing mechanism. 7. The hydraulic control system of claim 6 , further comprising a first map, stored in a memory associated with the control unit, relating the maximum desired system pressure to the absolute value of the desired speed of the swing mechanism in case the swing mechanism is accelerated, and a second map, stored in the memory associated with the control unit, relating the maximum desired system pressure to the absolute value of the desired speed of the swing mechanism in case the swing mechanism is decelerated. 8. The hydraulic control system of claim 5 , wherein the first control mode includes an acceleration mode, in which the swing mechanism is accelerated, and a deceleration mode, in which the swing mechanism is decelerated, and wherein the second control mode includes a stop mode, in which the swing mechanism is stopped, and a coast mode, in which the swing mechanism rotates at constant speed. 9. The hydraulic control system of claim 1 , wherein the control unit is configured to switch from the first control mode to the second control mode when the difference between the actual displacement and the desired displacement becomes less than a predetermined threshold, and wherein the predetermined threshold corresponds to value from 1% to 10% of the desired displacement. 10. A machine comprising: an engine; and the hydraulic control system according to claim 1 , wherein the at least one variable displacement pump is configured to be powered by the engine. 11. A method of controlling a swing mechanism of a machine comprising a closed-loop hydraulic circuit including a hydraulic motor, at least one variable displacement pump configured to supply the at least one hydraulic motor with pressurized hydraulic fluid to rotate the swing mechanism, and at least one actuator configured to adjust the displacement of the at least one variable displacement pump, the method comprising: receiving a first input indicative of a desired displacement of the at least one variable displacement pump; receiving a second input indicative of an actual displacement of the at least one variable displacement pump; and controlling the at least one actuator to adjust the displacement of the at least one variable displacement pump in a first control mode when the actual displacement does not match the desired displacement, and in a second control mode when the actual displacement matches the desired displacement, wherein in the second control mode, controlling the at least one actuator such that the displacement of the at least one variable displacement pump is maintained at the desired displacement to rotate the swing mechanism with substantially constant speed. 12. The method of claim 11 , further comprising: receiving an operator input corresponding to a desired speed and direction of rotation of the swing mechanism; and determining the desired displacement of the at least one variable displacement pump based at least in part on the desired speed and direction of rotation. 13. The method of claim 12 , further comprising: in the first control mode, controlling the at least one actuator such that a system pressure in the closed-loop hydraulic circuit does not exceed a maximum desired system pressure set at least in part on the basis of the absolute value of the desired speed of the swing mechanism. 14. The hydraulic control system of claim 1 , wherein the predetermined threshold corresponds to 5% of the desired displacement.