Anti-lock brake system for all-terrain vehicle

The invention claimed is: 1. An all-terrain vehicle, comprising: a frame; ground engaging members supporting the frame; a powertrain supported by the frame, including a first final drive drivingly coupled to a first pair of the ground engaging members to power the first pair of ground engaging members, and a second final drive drivingly coupled to a second pair of the ground engaging members to power the second pair of ground engaging members; and a braking system comprising: an anti-lock braking control module; a first brake master cylinder hydraulically coupled to the anti-lock braking control module; a first brake actuator coupled to the first brake master cylinder; a brake caliper coupled to at least some of the ground engaging members; a second brake master cylinder hydraulically coupled to the anti-lock braking control module; and a second brake actuator coupled to the second brake master cylinder, wherein the first brake master cylinder upon actuation provides anti-lock braking to the first and second pairs of ground engaging members, and wherein the second brake master cylinder upon actuation provides anti-lock braking only to the second pair of ground engaging members. 2. The all-terrain vehicle of claim 1 , wherein the first brake master cylinder is hydraulically coupled to a splitter. 3. The all-terrain vehicle of claim 2 , further comprising a diverter valve hydraulically coupled to the anti-lock braking control module, the diverter valve hydraulically coupled intermediate the splitter and the anti-lock braking control module, the first and second brake master cylinders hydraulically coupled to the diverter valve. 4. The all-terrain vehicle of claim 3 , wherein an output of the diverter valve is hydraulically coupled to a rear brake input of the anti-locking brake control module. 5. The all-terrain vehicle of claim 2 , wherein the splitter is further hydraulically coupled to the second brake master cylinder and a front brake input of the anti-lock braking control module, the second brake master cylinder hydraulically coupled to a rear brake input of the anti-lock braking control module. 6. The all-terrain vehicle of claim 5 , further comprising an external pressure transducer hydraulically coupled intermediate the second brake master cylinder and the rear brake input of the anti-lock braking control. 7. The all-terrain vehicle of claim 6 , wherein the anti-lock braking control includes a first pair of hydraulic outputs hydraulically coupled to the first pair of ground engaging members and a second pair of hydraulic outputs hydraulically coupled to the second pair of ground engaging members. 8. The all-terrain vehicle of claim 3 , wherein the first brake actuator for the first brake master cylinder is a hand controlled actuator. 9. The all-terrain vehicle of claim 3 , wherein the second brake actuator for the second brake master cylinder is a foot controlled actuator. 10. The all-terrain vehicle of claim 1 , further comprising a speed monitor for at least some of the ground engaging members. 11. The all-terrain vehicle of claim 10 , further comprising stub shafts extending from the first and second final drives to the first and second ground engaging members. 12. The all-terrain vehicle of claim 11 , wherein the speed monitor comprises a gear ring positioned on an exterior surface of the stub shafts of each of the first and second final drives and a speed sensor positioned adjacent to the gear ring. 13. An all-terrain vehicle, comprising: a frame; ground engaging members supporting the frame; a braking system comprising: an anti-lock braking control module; a first brake master cylinder hydraulically coupled to the anti-lock braking control module; a first brake actuator coupled to the first brake master cylinder; a second brake master cylinder hydraulically coupled to the anti-lock braking control module; a second brake actuator coupled to the second brake master cylinder; and a brake caliper coupled to at least some of the ground engaging members; and first and second diverter valves hydraulically coupled to the anti-lock braking control module, the first brake master cylinder hydraulically coupled to the first diverter valve independent of the second diverter valve and hydraulically coupled to the second diverter valve independent of the first diverter valve, wherein the first brake master cylinder upon actuation provides anti-lock braking to a first and second pairs of ground engaging members, and wherein the second brake master cylinder upon actuation provides anti-lock braking to the first and second pairs of ground engaging members. 14. The all-terrain vehicle of claim 13 , wherein the second brake master cylinder is hydraulically coupled to the first and second divert valves. 15. The all-terrain vehicle of claim 13 , wherein the first diverter valve is hydraulically coupled to a rear brake input of the anti-lock braking control module and the second diverter valve is hydraulically coupled to a front brake input of the anti-lock braking control module. 16. The all-terrain vehicle of claim 15 , further comprising a first splitter hydraulically coupled intermediate the second brake master cylinder and the first and second diverter valves. 17. The all-terrain vehicle of claim 13 , further comprising first and second diverter valves hydraulically coupled to the anti-lock braking control module, the first brake master cylinder hydraulically coupled to the first and second diverter valves, the second brake master cylinder hydraulically coupled to the second diverter valve, the second diverter valve hydraulically coupled to the first diverter valve. 18. The all-terrain vehicle of claim 13 , wherein the first brake actuator for the first brake master cylinder is a hand controlled actuator. 19. The all-terrain vehicle of claim 13 , wherein the second brake actuator for the second brake master cylinder is a foot controlled actuator. 20. The all-terrain vehicle of claim 13 , further comprising a speed monitor for at least some of the ground engaging members. 21. The all-terrain vehicle of claim 20 , further comprising a powertrain supported by the frame, including a first final drive drivingly coupled to at least some of the ground engaging members to power first ground engaging members, and a second final drive drivingly coupled to at least some of the ground engaging members to power second ground engaging members. 22. The all-terrain vehicle of claim 21 , further comprising stub shafts extending from the first and second final drives to the first and second ground engaging members. 23. The all-terrain vehicle of claim 22 , wherein the speed monitor comprises a gear ring positioned on an exterior surface of the stub shafts of each of the first and second final drives and a speed sensor positioned adjacent to the gear ring. 24. An all-terrain vehicle, comprising: a frame; ground engaging members supporting the frame; a powertrain supported by the frame, including a first final drive drivingly coupled to at least some of the ground engaging members to power first ground engaging members, and a second final drive drivingly coupled to at least some of the ground engaging members to power second ground engaging members; stub shafts extending from the first and second final drives to the first and second ground engaging members; and a speed monitor for at least some of the ground engaging members, the spee