Split cam braking system

What is claimed is: 1. A braking system for a rotary actuator comprising: a housing; a driving cam within the housing and associated with an upstream side of the braking system, wherein the driving cam is configured to rotate when torque is applied to the upstream side; a wedging cam within the housing and associated with a downstream side of the braking system, wherein the wedging cam comprises a first number of cutouts, wherein each cutout has a curved surface, and wherein the wedging cam is configured to prevent back-drive when torque is applied to the downstream side; and a plurality of cylindrical rollers positioned in the first number of cutouts between the wedging cam and the housing, wherein each cylindrical roller is configured to wedge between a respective curved surface of each cutout of the wedging cam and the housing when the torque is applied to the downstream side. 2. The braking system of claim 1 , wherein the first number of cutouts are cut out in equal intervals around a circumference of the wedging cam. 3. The braking system of claim 2 , wherein the driving cam comprises: a second number of cutouts corresponding to the first number of cutouts in the wedging cam such that channels are formed between the driving cam and the wedging cam, wherein a pair of cylindrical rollers of the plurality of cylindrical rollers is positioned within each channel created by the first number of cutouts and the second number of cutouts. 4. The braking system of claim 1 , wherein the plurality of cylindrical rollers comprises: a first pair of cylindrical rollers positioned in a first channel between the wedging cam and the housing; a second pair of cylindrical rollers positioned in a second channel between the wedging cam and the housing; and a third pair of cylindrical rollers positioned a third channel between the wedging cam and the housing. 5. The braking system of claim 4 , wherein the braking system comprises: a spring cage associated with each pair of cylindrical rollers and positioned in each cutout of the first number of cutouts. 6. The braking system of claim 1 further comprising: a central support shaft associated with the driving cam. 7. The braking system of claim 6 further comprising: a plurality of bearings associated with at least one of the driving cam and the wedging cam. 8. The braking system of claim 1 , wherein the braking system is devoid of friction plates. 9. A method for preventing back-drive of a rotary actuator, the method comprising: applying torque to an upstream side of a braking system in the rotary actuator; rotating a driving cam within a housing in the upstream side of the braking system; rotating a wedging cam within the housing as the driving cam rotates, wherein the wedging cam comprises a first number of cutouts, wherein each cutout has a curved surface; stopping the torque applied to the upstream side of the braking system; and wedging a plurality of cylindrical rollers positioned in the first number of cutouts between a respective curved surface of each cutout of the wedging cam and the housing to prevent back-drive when torque is applied to a downstream side of the braking system. 10. The method of claim 9 , wherein the driving cam comprises: a second number of cutouts corresponding to the first number of cutouts in the wedging cam such that channels are formed between the driving cam and the wedging cam, wherein a pair of cylindrical rollers of the plurality of cylindrical rollers is positioned within each channel created by the first number of cutouts and the second number of cutouts. 11. The method of claim 10 further comprising: stabilizing the plurality of cylindrical rollers with a spring cage. 12. The method of claim 11 , wherein the plurality of cylindrical rollers comprises a first pair, a second pair, and a third pair, and further comprising: wedging at least one of each pair of cylindrical rollers between a respective curved surface of each cutout of the wedging cam and the housing. 13. The method of claim 9 further comprising: rotating a central support shaft associated with the driving cam when the torque is applied to the upstream side of the braking system. 14. An aircraft comprising: a geared rotary actuator; and a braking system for the geared rotary actuator comprising: a housing; a driving cam within the housing and associated with an upstream side of the braking system, wherein the driving cam rotates when torque is applied to the upstream side; a wedging cam within the housing and associated with a downstream side of the braking system, wherein the wedging cam comprises a first number of cutouts, wherein each cutout has a curved surface, and wherein the wedging cam prevents back-drive when torque is applied to the downstream side; and a plurality of cylindrical rollers positioned in the first number of cutouts between the wedging cam and the housing, wherein each cylindrical roller wedges between a respective curved surface of each cutout of the wedging cam and the housing when the torque is applied to the downstream side. 15. The aircraft of claim 14 , wherein the first number of cutouts are cut out in equal intervals around a circumference of the wedging cam. 16. The aircraft of claim 15 , wherein the driving cam comprises: a second number of cutouts corresponding to the first number of cutouts of the wedging cam such that the plurality of cylindrical rollers is positioned within channels created by the first number of cutouts and the second number of cutouts. 17. The aircraft of claim 14 , wherein the plurality of cylindrical rollers comprises: a first pair of cylindrical rollers positioned in a first channel between the wedging cam and the housing; a second pair of cylindrical rollers positioned in a second channel between the wedging cam and the housing; a third pair of cylindrical rollers positioned in a third channel between the wedging cam and the housing; and a spring cage associated with each pair of cylindrical rollers. 18. The aircraft of claim 17 , wherein the geared rotary actuator is configured to move an aircraft part selected from one of a leading edge flap, a trailing edge flap, a leading edge slat, a trailing edge slat, a horizontal stabilizer, a folding wing tip, or a door. 19. The aircraft of claim 14 , wherein the braking system further comprises: a central support shaft associated with the driving cam. 20. The aircraft of claim 19 , wherein the braking system further comprises: a plurality of bearings associated with at least one of the driving cam and the wedging cam.