Roller screw system

We claim: 1. A roller screw system, comprising: a spindle including a helically threaded portion and defining a longitudinal axis about which the spindle rotates; a nut at least partially radially surrounding the helically threaded portion of the spindle, the nut including a helical thread on an interior lumen wall thereof, the nut being configured for longitudinal motion selectively in a first direction and in a second direction, opposite the first direction, with respect to the spindle; at least one non-helically grooved roller, interposed radially between the spindle and the nut; and a cage maintaining the at least one roller in position radially between the spindle and the nut, the cage supporting the at least one roller for rotational motion about a longitudinal axis of the at least one roller, the at least one roller maintaining a substantially constant longitudinal position with respect to the cage during operation of the roller screw system, the cage being configured to urge the spindle toward a radially centered position within the nut; wherein the nut is moved in the first and second directions in a duty cycle responsive to transmission of rotational motion from the spindle to the at least one roller, and transformation of rotational motion of the at least one roller to longitudinal motion of the nut; and a home position of the nut with respect to the spindle and a home position of the cage with respect to the nut both move longitudinally after a predetermined number of duty cycles. 2. The roller screw system of claim 1 , wherein the cage includes longitudinally spaced first and second rings and a plurality of longitudinally extending bars, the cage being configured to maintain the at least one roller longitudinally between the first and second rings. 3. The roller screw system of claim 2 , wherein at least one bar is contoured to have different radial distances from the spindle at differing longitudinal positions along the bar. 4. The roller screw system of claim 1 , wherein the cage includes at least one biasing tab for biasing contact with a selected one of the nut and the spindle to urge the spindle toward the radially centered position within the nut. 5. The roller screw system of claim 1 , including a selected one of a torsion spring and a compression spring interposed mechanically between the cage and the nut, the selected spring being operative to maintain a longitudinal position of the cage relative to the nut during a slip phase of operation and to allow the cage to move longitudinally relative to the nut when the at least one roller rotates during a motion transmission phase of operation. 6. The roller screw system of claim 1 , including a plurality of rollers, at least two of the plurality of rollers being maintained at different longitudinal positions with respect to the cage. 7. The roller screw system of claim 1 , including ten rollers. 8. The roller screw system of claim 1 , wherein the home position of the nut with respect to the spindle moves longitudinally in the first direction after the predetermined number of duty cycles. 9. The roller screw system of claim 1 , wherein the home position of the cage with respect to the nut moves longitudinally in the second direction after the predetermined number of duty cycles. 10. The roller screw system of claim 1 , wherein the at least one roller has a thread angle in the range of 15° to 45°. 11. An electromechanical brake apparatus, comprising: a housing defining a mechanism cavity; the roller screw of claim 1 located at least partially within the mechanism cavity; a brake pad, operatively connected to the nut for longitudinal driving thereby; and a motor, operatively connected to the spindle to provide rotational motion thereto. 12. An electromechanical brake apparatus, comprising: a housing defining a mechanism cavity; a roller screw located at least partially within the mechanism cavity, the roller screw including a spindle including a helically threaded portion and defining a longitudinal axis about which the spindle rotates, a nut at least partially radially surrounding the helically threaded portion of the spindle, the nut including a helical thread on an interior lumen wall thereof, the nut being configured for longitudinal motion selectively in a first direction and in a second direction, opposite the first direction, with respect to the spindle, at least one non-helically grooved roller, interposed radially between the spindle and the nut, and a cage maintaining the at least one roller in position radially between the spindle and the nut, the cage supporting the at least one roller for rotational motion about a longitudinal axis of the at least one roller, the at least one roller maintaining a substantially constant longitudinal position with respect to the cage during operation of the roller screw system, the cage being configured to urge the spindle toward a radially centered position within the nut; and a brake pad, operatively connected to the nut for longitudinal driving thereby, the nut being moved, and responsively moving the brake pad, in the first and second directions in a duty cycle responsive to transmission of rotational motion from the spindle to the at least one roller, and transformation of rotational motion of the at least one roller to longitudinal motion of the nut; and a motor, operatively connected to the spindle to provide rotational motion thereto. 13. The electromechanical brake apparatus of claim 12 , wherein the cage includes longitudinally spaced first and second rings and a plurality of longitudinally extending bars, the cage being configured to maintain the at least one roller longitudinally between the first and second rings. 14. The electromechanical brake apparatus of claim 12 , including a plurality of rollers, at least two of the plurality of rollers being maintained at different longitudinal positions with respect to the cage. 15. The electromechanical brake apparatus of claim 12 , wherein a home position of the nut with respect to the spindle and a home position of the cage with respect to the nut both move longitudinally after a predetermined number of duty cycles, and the home position of the nut with respect to the spindle moves longitudinally in the first direction after the predetermined number of duty cycles. 16. The electromechanical brake apparatus of claim 12 , wherein a home position of the nut with respect to the spindle and a home position of the cage with respect to the nut both move longitudinally after a predetermined number of duty cycles, and the home position of the cage with respect to the nut moves longitudinally in the second direction after the predetermined number of duty cycles. 17. The electromechanical brake apparatus of claim 12 , wherein a longitudinal position of the cage is maintained relative to the nut during a slip phase of operation and the cage is allowed to move longitudinally relative to the nut when the at least one roller rotates during a motion transmission phase of operation.