Disc brake system

The invention claimed is: 1. A brake system comprising: an opposed piston brake system comprising: i. a brake piston; and ii. a brake pad; a parking brake system comprising: i. a rotary to linear stage mechanism in communication with the brake piston, the rotary to linear stage mechanism comprises a spindle and a nut sleeve, rotation of the spindle causes the nut sleeve to move axially; ii. an adjuster; wherein during a parking brake apply, the rotary to linear stage mechanism transfers torque into a linear force to move the brake piston and the brake pad against a brake rotor to create a clamp force, and wherein the adjuster comprises a compression spring that is adapted to apply a load on the nut sleeve to restrict axial movement of the nut sleeve beyond a predetermined position in a direction away from the brake pad. 2. The brake system of claim 1 , wherein the parking brake system comprises a ball and ramp assembly located between the rotary to linear stage mechanism and a moveable actuator for providing the torque to the rotary to linear stage mechanism, and wherein the spindle and the nut sleeve are at least partially received in a piston bore of the brake piston, and wherein the parking brake system comprises a second compression spring, the second compression spring is adapted to apply a load on the spindle against a ramp plate of the ball and ramp assembly. 3. The brake system of claim 2 , wherein the actuator is moved by manually pulling a cable pull and tensioning a spring. 4. The brake system of claim 1 , wherein the adjuster adjusts a position of the spindle relative to the nut sleeve by rotationally retracting the spindle out of the nut sleeve as the brake pad wears over time, and wherein the position of the spindle is adjusted during a brake apply. 5. The brake system of claim 1 , wherein the brake pad is an inboard brake pad and the brake system includes an outboard brake pad an outboard brake piston, wherein the parking brake system includes a body having a bridge and fingers, the fingers are in communication with the outboard brake pad, wherein during the parking brake apply, the rotary to linear stage mechanism moves the brake piston and the inboard brake pad against the brake rotor and the bridge and fingers pull the outboard brake pad against the brake rotor, and wherein the outboard brake piston is located in between the fingers. 6. The brake system of claim 5 , wherein the parking brake system includes a bracket, the bracket is fixed to a pressure plate of the outboard brake pad, the bracket includes arms that are adapted to wrap around the fingers to fix the fingers to the outboard brake pad. 7. The brake system of claim 5 , wherein the brake piston is an inboard brake piston that is in communication with the inboard brake pad, wherein the inboard brake piston is directly opposed the outboard brake piston, wherein the fingers surround the outboard brake piston. 8. The brake system of claim 1 , wherein the brake pad is an inboard brake pad, and the brake system includes an outboard brake pad, wherein the brake piston is an inboard brake piston that is in communication with the inboard brake pad, and the brake system includes an outboard brake piston, wherein the parking brake system includes a body having a bridge and fingers, and wherein during the parking brake apply, the rotary to linear stage mechanism transfers the torque into the linear force to move the inboard brake piston and the inboard brake pad against the brake rotor to create the clamp force and the bridge and fingers move the outboard brake pad against the brake rotor, and wherein during a standard brake apply, the inboard brake piston and the outboard brake piston are moved by pressurizing brake fluid. 9. An assembly comprising: a brake system comprising: i. an inboard brake piston; ii. an inboard brake pad; iii. an outboard brake piston; and iv. an outboard brake pad comprising a pressure plate; a parking brake system comprising: i. a rotary to linear stage mechanism in communication with the inboard brake piston; ii. an adjuster for adjusting the rotary to linear stage mechanism based on wear of the inboard brake pad, the outboard brake pad, or both; and iii. a body having a bridge and fingers, the fingers are in communication with the outboard brake pad; iv. a bracket, the bracket is connected to the pressure plate of the outboard brake pad, the bracket includes arms that are adapted to engage the fingers of the body to connect the fingers to the outboard brake pad; wherein during a parking brake apply, the rotary to linear stage mechanism transfers torque into a linear force to move the inboard brake piston and the inboard brake pad against a brake rotor, and wherein during the parking brake apply, the bridge and fingers move the outboard brake against the brake rotor. 10. The brake system of claim 9 , wherein the parking brake system comprises an actuator for actuating the parking brake system and generating the torque, the actuator is actuated by manually pulling a cable pull. 11. The brake system of claim 10 , wherein the rotary to linear stage mechanism comprises a spindle and a nut sleeve, the spindle is rotated when the actuator is actuated, and rotation of the spindle causes the nut sleeve to axially move the inboard brake piston and the inboard brake pad. 12. The brake system of claim 9 , wherein the adjuster comprises a compression spring and a snap ring that cooperate to restrict axial movement of the nut sleeve while allowing the spindle to retract out of the nut sleeve as the inboard brake pad, the outboard brake pad, or both wear, and wherein the adjuster and the rotary to linear stage mechanism are at least partially received in a piston bore of the inboard brake piston. 13. The brake system of claim 12 , wherein the parking brake system comprises a ball ramp assembly located between the actuator and the linear to rotary stage mechanism, and a second compression spring for applying a preload on the spindle to maintain the spindle in communication with the ball ramp assembly. 14. The brake system of claim 13 , wherein the outboard brake piston opposes the inboard brake piston. 15. The brake system of claim 14 , wherein the brake system comprises two inboard brake pistons and two outboard brake pistons. 16. A method of applying the parking brake in the brake system of claim 1 , the method comprising: moving the brake piston and the brake pad with the rotary to linear stage mechanism; and moving an opposing brake pad with fingers and a bridge. 17. The method of claim 16 , wherein the brake piston is an inboard brake piston and the fingers are fixed to the opposing brake pad. 18. The method of claim 16 , wherein the method includes a step of adjusting the parking brake system based on wear of the brake pad, the opposing brake pad, or both, wherein the step of adjusting the parking brake system includes retracting a spindle of the rotary to linear stage mechanism out of a nut sleeve of the rotary to linear stage mechanism, and wherein the step of adjusting the parking brake is performed during a step of applying a service brake. 19. An assembly comprising: an opposed piston brake system comprising a caliper, the caliper supporting: i. an inboard brake piston; ii. an inboard brake pad; iii. an outboard brake piston that directly opposes the inboard brake piston; and iv. an outboard brake pad comprising a pressure plate; a parking brake system comprising: i. a