Redundant magnetic angle sensor with improved accuracy

What is claimed is: 1. An angle sensor, comprising: a set of primary sensing elements that provide signals associated with determining a primary angle measurement of a magnetic field produced by a magnet, the set of primary sensing elements including a first primary sensing element and a second primary sensing element, the first primary sensing element being positioned adjacent to the second primary sensing element in a plane substantially parallel with respect to a face of the magnet, and an axis of rotation of the magnet intersecting the plane substantially parallel with respect to the face of the magnet between the first primary sensing element and the second primary sensing element; and a set of backup sensing elements that provide signals associated with determining a backup angle measurement of the magnetic field, the set of backup sensing elements including a first backup sensing element and a second backup sensing element, the first backup sensing element having a first same bridge configuration as the first primary sensing element, the second backup sensing element having a second same bridge configuration as the second primary sensing element, the first same bridge configuration being different than the second same bridge configuration, and the first primary sensing element and the second primary sensing element being positioned between the first backup sensing element and the second backup sensing element in the plane substantially parallel with respect to the face of the magnet. 2. The angle sensor of claim 1 , where a distance between the first backup sensing element and the first primary sensing element is substantially equal to a distance between the second backup sensing element and the second primary sensing element. 3. The angle sensor of claim 1 , where the first primary sensing element and the second primary sensing element are substantially equal in distance with respect to the axis of rotation of the magnet, the axis of rotation being substantially perpendicular to the face of the magnet. 4. The angle sensor of claim 1 , where the first backup sensing element and the second backup sensing element are substantially equal in distance with respect to the axis of rotation of the magnet, the axis of rotation being substantially perpendicular to the face of the magnet. 5. The angle sensor of claim 1 , where the first primary sensing element includes a first Wheatstone bridge, the second primary sensing element includes a second Wheatstone bridge, the first backup sensing element includes a third Wheatstone bridge, and the second backup sensing element includes a fourth Wheatstone bridge. 6. The angle sensor of claim 1 , where the first primary sensing element, the second primary sensing element, the first backup sensing element, and the second backup sensing element sense the magnetic field, produced by the magnet, based on a Hall-effect, a tunnel magnetoresistance (TMR) effect, a giant magnetoresistance (GMR) effect, or an anisotropic magnetoresistance (AMR) effect. 7. The angle sensor of claim 1 , where the first primary sensing element and the second primary sensing element are excentrically positioned with respect to the axis of rotation of the magnet, the axis of rotation being substantially perpendicular to the face of the magnet. 8. A magnetic sensor, comprising: a set of primary sensing elements that provide signals associated with determining a primary angle measurement of a magnetic field produced by a magnet, the set of primary sensing elements including a first primary sensing element and a second primary sensing element, the first primary sensing element being positioned adjacent to the second primary sensing element in a plane substantially parallel to a face of the magnet, an axis of rotation of the magnet intersecting the plane substantially parallel with respect to the face of the magnet between the first primary sensing element and the second primary sensing element, and the first primary sensing element and the second primary sensing element being substantially equal in distance from the axis of rotation of the magnet; and a set of backup sensing elements that provide signals associated with determining an backup angle measurement of the magnetic field, the set of backup sensing elements including a first backup sensing element and a second backup sensing element, the first backup sensing element having a first same bridge configuration as the first primary sensing element, the second backup sensing element having a second same bridge configuration as the second primary sensing element, the first same bridge configuration being different than the second same bridge configuration, and the first primary sensing element and the second primary sensing element being positioned between the first backup sensing element and the second backup sensing element in the plane substantially parallel to the face of the magnet, the first backup sensing element and the second backup sensing element being substantially equal in distance from the axis of rotation of the magnet. 9. The magnetic sensor of claim 8 , where a distance between the first backup sensing element and the first primary sensing element is substantially equal to a distance between the second backup sensing element and the second primary sensing element. 10. The magnetic sensor of claim 8 , where the first primary sensing element and the second primary sensing element are substantially centered on the axis of rotation of the magnet, the axis of rotation being substantially perpendicular to the face of the magnet. 11. The magnetic sensor of claim 8 , where the first backup sensing element and the second backup sensing element are substantially centered on the axis of rotation of the magnet, the axis of rotation being substantially perpendicular to the face of the magnet. 12. The magnetic sensor of claim 8 , where the first primary sensing element includes a first full bridge, the second primary sensing element includes a second full bridge, the first backup sensing element includes a third full bridge, and the second backup sensing element includes a fourth full bridge. 13. The magnetic sensor of claim 8 , where the first primary sensing element, the second primary sensing element, the first backup sensing element, and the second backup sensing element sense the magnetic field, produced by the magnet, based on a Hall-effect, a tunnel magnetoresistance (TMR) effect, a giant magnetoresistance (GMR) effect, or an anisotropic magnetoresistance (AMR) effect. 14. A magnetic angle sensor, comprising: a set of primary sensing elements that provide signals associated with determining a primary angle measurement of a magnetic field produced by a magnet, the set of primary sensing elements including: a first primary sensing element, and a second primary sensing element; and a set of backup sensing elements that provide signals associated with determining a backup angle measurement of the magnetic field, the set of backup sensing elements including: a first backup sensing element, and a second backup sensing element, the first primary sensing element being positioned adjacent to the second primary sensing element, the first backup sensing element being positioned adjacent to the first primary sensing element, the second backup sensing element being positioned adjacent to the second primary sensing element, the first primary sensing element and the second primary sensing element being positioned between the first backup sensing element and the second backup sensing element, the first primary sensing elemen