Steering system with magnetic torque overlay lash compensation

Having thus described the invention, it is claimed: 1. A method for compensating for lash in a steering system, the method comprising: determining a rack pressure value based on a driver torque value and a differential pressure across a rack of the steering system; determining a compensation friction value based on a position of a handwheel of the steering system and a speed of a vehicle equipped with the steering system; computing a pressure value based on the rack pressure value and the compensation friction value, wherein computing the pressure value further comprises: determining a static pressure value based on the rack pressure value, wherein determining the static pressure value comprises multiplying the rack pressure value by a predetermined scaling factor and limiting a result of the multiplication by the compensation friction value; determining a dynamic pressure value based on a speed of the handwheel of the steering system; and adding the static pressure value and the dynamic pressure value to compute the pressure value; and generating a torque command using the pressure value, the torque command being added to the a driver assist torque for the steering system. 2. The method of claim 1 , wherein determining the compensation friction value further comprises determining a center friction value for the steering system, wherein the center friction value represents a magnitude of pressure to compensate for the lash. 3. The method of claim 2 , wherein the center friction value is incremented by a predetermined step value in response to a specific number of ignition cycles of the vehicle that is equipped with the steering system. 4. The method of claim 2 , wherein the center friction value is incremented by a predetermined step value in response to each ignition of the vehicle that is equipped with the steering system. 5. The method of claim 2 , further comprising configuring the center friction value based on a mileage of the vehicle. 6. The method of claim 1 , further comprising configuring the center friction value dynamically based on pressure measurements in the steering system. 7. The method of claim 1 , wherein the driver torque value is an estimated driver torque value. 8. The method of claim 1 , wherein determining the dynamic pressure value comprises multiplying the speed of the handwheel by a predetermined scaling factor. 9. The method of claim 1 , wherein computing the pressure value further comprises limiting the result of adding the static pressure value and the dynamic pressure value within a range that is defined by positive and negative values of the compensation friction value. 10. A steering system comprising a control module configured to: determine a rack pressure value based on a driver torque value and a differential pressure across a rack of a steering gear; determine a compensation friction value based on a position of a handwheel of the steering system and a vehicle speed; compute a pressure value based on the rack pressure value and the compensation friction value, wherein computing the pressure value further comprises: determining a static pressure value based on the rack pressure value, wherein determining the static pressure value comprises multiplying the rack pressure value by a predetermined scaling factor and limiting a result of the multiplication by the compensation friction value; determining a dynamic pressure value based on a speed of the handwheel of the steering system; and adding the static pressure value and the dynamic pressure value to compute the pressure value; and generate a torque command using the pressure value, the torque command being added to a driver assist torque for the steering system. 11. The steering system of claim 10 , wherein the control module is further configured to increment a center friction value by a predetermined step value in response to a specific number of ignition cycles of the vehicle equipped with the steering system, wherein the compensation friction value is determined further based on the center friction value. 12. The steering system of claim 10 , wherein the control module is further configured to determine a center friction value based on a mileage of the vehicle, wherein the compensation friction value is determined further based on the center friction value. 13. The steering system of claim 10 , wherein determining the dynamic pressure value comprises multiplying the speed of the handwheel by a predetermined scaling factor. 14. The steering system of claim 10 , wherein computing the pressure value further comprises limiting the result of adding the static pressure value and the dynamic pressure value within a range that is defined by positive and negative values of the compensation friction value. 15. The steering system of claim 10 , wherein the control module is further configured to increment a center friction value dynamically based on pressure measurements in the steering system. 16. A power steering system that is configured to: determine a rack pressure value based on a driver torque value and a differential pressure across a rack of a steering gear of the power steering system; determine a center friction value based on a usage parameter of the power steering system; determine a compensation friction value based on a position of a handwheel of the steering system, a vehicle speed, and the center friction value; compute a pressure value based on the rack pressure value and the compensation friction value, wherein computing the pressure value further comprises: determining a static pressure value based on the rack pressure value, wherein determining the static pressure value comprises multiplying the rack pressure value by a predetermined scaling factor and limiting a result of the multiplication by the compensation friction value; determining a dynamic pressure value based on a speed of the handwheel of the steering system; and adding the static pressure value and the dynamic pressure value to compute the pressure value; and generate a torque command using the pressure value to compensate for a lash in the steering gear, the torque command being added to a driver assist torque for the power steering system. 17. The power steering system of claim 16 , wherein determining the dynamic pressure value comprises multiplying the speed of the handwheel by a predetermined scaling factor. 18. The power steering system of claim 16 , wherein computing the pressure value further comprises limiting the result of adding the static pressure value and the dynamic pressure value within a range that is defined by positive and negative values of the compensation friction value. 19. The power steering system of claim 16 further configured to increment a center friction value dynamically based on pressure measurements in the power steering system. 20. The power steering system of claim 16 , wherein determining the compensation friction value further comprises determining a center friction value for the steering system, wherein the center friction value represents a magnitude of pressure to compensate for the lash.