Off-axis magnetic angular sensor using a magnetic sensing probe and multi-pole magnet array

What is claimed is: 1. A position measurement system for measuring the position of a movable device versus a fixed device, the position measurement system comprising: a two-dimensional (2D) surface magnet array with at least three adjacent magnetized tracks having sequentially alternating magnetic polarities, each magnetized track having a constant width w; and at least one magnetic field sensor disposed proximate to, and maintaining a constant airgap with respect to, the 2D surface magnet array, wherein the 2D surface magnet array and the at least one magnetic field sensor are in a specific relative orientation such that a relative trajectory of the at least one magnetic field sensor is configured to be at a tilted, acute angle θ with respect to a length direction of the at least three adjacent magnetized tracks of the 2D surface magnet array, wherein the relative trajectory comprises the 2D surface magnet array rotating relative to the at least one magnetic field sensor and the 2D surface magnet array comprises an axial cylindrical helical multipole magnet array having an outer radius R, wherein the tilted, acute angle θ is set so that the at least one magnetic field sensor is configured to generate N periods of the periodic position signal per 360° revolution of the axial cylindrical helical multipole magnet array based on the formula: tan ⁡ ( θ N ) = Nw 2 ⁢ π ⁢ R , and wherein in response to relative movement along the relative trajectory, the at least one magnetic field sensor is configured to generate a periodic position signal having a period P θ that depends, at least in part, upon the width w and the tilted, acute angle θ according to the equation: P θ = a ⁢ w cos ⁢ θ , with ⁢ a = 1 ⁢ or ⁢ a = 2. 2. The position measurement system of claim 1 , wherein the 2D surface magnet array is a radial disk spiral multipole magnet array having an outer radius R. 3. The position measurement system of claim 2 , wherein the tilted, acute angle θ is set so that the at least one magnetic field sensor is configured to generate N periods of the periodic position signal per 360° revolution of the radial disk spiral multipole magnet array based on the formula: tan ⁡ ( θ N ) = Nw 2 ⁢ π ⁢ R . 4. The position measurement system of claim 2 , further comprising a bearing having an inner race and an outer race, wherein the 2D surface magnet array is fixedly coupled to one of the inner race and outer race, and the at least one magnetic field sensor is fixedly coupled to the other of the inner race and outer race. 5. The position measurement system of claim 2 : wherein the 2D surface magnet array further comprises: circular concentric north and south magnetized tracks having a common central axis with the radial disk spiral multipole magnet array, and, wherein the at least one magnetic field sensor comprises: a position magnetic field sensor disposed above a top surface of the radial disk spiral multipole magnet array; and, a radial misalignment magnetic field sensor disposed above a top surface of the circular concentric north and south magnetized tracks. 6. The position measurement system of claim 1 , further comprising a bearing having an inner race and an outer race, wherein the 2D surface magnet array is fixedly coupled to one of the inner race and outer race, and the at least one magnetic field sensor is fixedly coupled to the other of the inner race and outer race. 7. The position measurement system of claim 1 : wherein the 2D surface magnet array further comprises: circular stacked north and south magnetized tracks having a common central axis with the axial cylindrical helical multipole magnet array, and, wherein the at least one magnetic field sensor comprises: a position magnetic field sensor disposed above a side surface of the axial cylindrical helical multipole magnet array; and, an axial misalignment magnetic field sensor disposed above a side surface of the circular stacked north and south magnetized tracks. 8. The position measurement system of claim 1 , wherein the relative trajectory comprises the 2D surface magnet array translating relative to the at least one magnetic field sensor. 9. The position measurement system of claim 8 , wherein the 2D surface magnet array comprises a planar multipole magnet array having a length L. 10. The position measurement system of claim 9 , wherein the tilted, acute angle θ is set so that the at least one magnetic field sensor is configured to generate N periods of the periodic position signal per displacement over the length L of the 2D surface magnet array based on the formula: tan ⁡ ( θ N ) = Nw L . 11. The position measurement system of claim 9 : wherein the 2D surface magnet array further comprises: straight stacked north and south magnetized tracks that run parallel to the length L of the 2D surface magnet array and are disposed above the planar multipole magnet array, and, wherein the at least one magnetic field sensor comprises: an angle magnetic field sensor disposed above a top surface of the planar multipole magnet array; and, an off-axis misalignment magnetic field sensor disposed above a top surface of the circular concentric north and south magnetized tracks. 1