Service brake actuation using a linear actuator

The invention claimed is: 1. A fluid control system, comprising: a fluid assembly having a piston defined within a chamber and at least one clutch assembly; an electrical system having a motor configured to selectively reposition the piston; a controller in communication with the electrical system; and a sensor in communication with the controller to identify a fluid pressure value; wherein, the controller identifies a desired fluid pressure range and selectively repositions the piston with the motor until the fluid pressure value is within the desired fluid pressure range; further wherein, the position of the piston and the pressure of the fluid assembly is maintained when the electrical system is not powered; further wherein, increasing the fluid pressure value increases an apply force applied by the at least one clutch assembly and the at least one clutch assembly selectively engages a power take-off based on a predefined force profile for engaging the at least one clutch assembly. 2. The fluid control system of claim 1 , further wherein the motor is coupled to a ball-screw actuator that engages the piston. 3. The fluid control system of claim 2 , further wherein the ball-screw actuator is rotatable by the motor in a first direction wherein the piston provides increased pressure to the fluid assembly. 4. The fluid control system of claim 3 , further wherein the ball screw actuator is rotatable by the motor in a second direction, wherein the piston reduces pressure in the fluid assembly when the motor rotates the ball screw actuator in the second direction. 5. A system for a work machine, comprising: a fluid assembly fluidly coupled to at least one fluid component; a motor selectively engaged by a controller; and a piston repositionable within a cylinder by the motor as the primary pressure producing mechanism of the fluid assembly to selectively alter a fluid pressure applied to the at least one fluid component; wherein, the at least one fluid component comprises a brake pack and the motor, piston, and cylinder are positioned at least partially within a portion of an axle sub-assembly of the work machine to selectively apply a braking force to a corresponding wheel. 6. The system of claim 5 , further wherein the motor engages a ball-screw actuator to reposition the piston. 7. The system of claim 6 , further wherein the ball-screw actuator has a ball nut assembly positioned around a screw and coupled to the piston with a connecting shaft, wherein the motor engages the ball nut assembly to reposition the piston by linearly displacing the connecting shaft. 8. The system of claim 6 , further wherein when the motor is not powered, the ball nut assembly and connecting shaft substantially maintain the position of the piston. 9. The system of claim 5 , further comprising: a pressure sensor fluidly coupled to the fluid assembly and communicating an active fluid pressure to the controller; and a brake input communicating a brake command to the controller; wherein, the controller identifies a brake pressure range based on the brake command; further wherein, the controller repositions the piston with the motor until the pressure sensor identifies the active fluid pressure to be within the brake pressure range. 10. The system of claim 9 , further wherein the brake input includes a position sensor that identifies the position of a brake pedal and the brake pressure range varies based on the position of the brake pedal. 11. The system of claim 5 , further wherein increasing the fluid pressure increases a braking force applied by the brake pack. 12. The system of claim 11 , further comprising: a brake pedal; and a position sensor coupled to the brake pedal and in communication with the controller; wherein, a desired fluid pressure is determined by the controller as a pressure range based on the position of the brake pedal identified by the position sensor; further wherein, the controller repositions the piston until the controller identifies a fluid pressure within the pressure range. 13. A method for providing hydraulic pressure to a brake assembly, comprising: providing a hydraulic assembly having a piston defined within a cylinder, an electrical system having a motor configured to selectively reposition the piston, a controller in communication with the electrical system, a brake system fluidly coupled to the hydraulic assembly, a pressure sensor, and a user input in communication with the controller to selectively apply a parking brake; identifying, with the controller through the user input, a parking brake command; establishing a brake pressure range, with the controller, based on the parking brake command; monitoring, with the controller through the pressure sensor, an active pressure of the brake system; altering the position of the piston within the cylinder, with the controller using the motor, until the active pressure is within the brake pressure range; and maintaining the active pressure when the electrical system is not powered. 14. The method of claim 13 , further wherein the motor is coupled to a ball-screw actuator that engages the piston. 15. The method of claim 14 , further wherein the ball-screw actuator is rotatable by the motor in a first direction, wherein the controller rotates the ball screw actuator in the first direction when the active pressure is less than the brake pressure range. 16. The method of claim 14 , further wherein the ball screw actuator is rotatable by the motor in a second direction, wherein the controller rotates the ball screw actuator in the second direction when the active pressure is greater than the brake pressure range. 17. The method of claim 13 , further wherein when the active pressure of the brake system is within the brake pressure range, the controller does not power the motor. 18. The method of claim 13 , further wherein the user input is a touchscreen.