Steering position sensing system for a marine engine

What is claimed is: 1. An outboard engine for propelling a watercraft comprising: a drive unit pivotable about a steering axis; a stern bracket for mounting the outboard engine to the watercraft; a swivel bracket pivotally connected to the stern bracket about a generally horizontal tilt/trim axis, the steering axis being generally perpendicular to the tilt/trim axis; a drive unit mounting bracket pivotally connecting the drive unit to the swivel bracket about the steering axis; and a steering position sensing system disposed between the drive unit mounting bracket and the swivel bracket in a direction parallel to the steering axis, the steering position sensing system comprising: an arcuate magnet; a magnet housing having an arcuate portion, the magnet being disposed in the magnet housing, the magnet housing being connected to the drive unit mounting bracket, the magnet housing and the magnet being pivotable about the steering axis with the drive unit mounting bracket; a sensor housing connected to the swivel bracket, the magnet housing and the magnet being pivotable about the steering axis relative to the sensor housing, the sensor housing having a wall defining an arcuate recess, the arcuate portion of the magnet housing being received in part in the arcuate recess of the sensor housing, the arcuate portion of the magnet housing being spaced from the wall; and a sensor disposed in the sensor housing for sensing a magnetic field of the magnet to determine an angular position of the drive unit relative to the swivel bracket. 2. The outboard engine of claim 1 , wherein ends of the magnet housing define apertures; and further comprising fasteners inserted in the apertures and fastening the magnet housing to the drive unit mounting bracket. 3. The outboard engine of claim 1 , wherein the magnet housing has a protrusion received in a recess defined in the drive unit mounting bracket. 4. The outboard engine of claim 1 , wherein the drive unit mounting bracket is an upper drive unit mounting bracket; and further comprising a lower drive unit mounting bracket pivotally connecting the drive unit to the swivel bracket about the steering axis. 5. The outboard engine of claim 1 , further comprising a tilt actuator operatively connected to the stern bracket and the swivel bracket for pivoting the swivel bracket and the drive unit relative to the stern bracket about the tilt/trim axis. 6. The outboard engine of claim 5 , further comprising a steering actuator operatively connected to the drive unit and the swivel bracket for pivoting the drive unit relative to the swivel bracket about the steering axis. 7. The outboard engine of claim 6 , wherein the steering actuator is a rotary actuator. 8. The outboard engine of claim 1 , wherein a center of curvature of the magnet, the arcuate portion of the magnet housing and the arcuate recess of the sensor housing correspond to the steering axis. 9. The outboard engine of claim 1 , wherein an arc length of the magnet is greater than an arc length of the arcuate recess of the sensor housing. 10. The outboard engine of claim 1 , wherein the magnet housing is generally semi-annular in shape. 11. The outboard engine of claim 1 , further comprising an electronic module electrically connected to the sensor to receive a signal indicative of the angular position of the drive unit relative to the watercraft. 12. The outboard engine of claim 1 , wherein: the arcuate portion of the magnet housing has an outer arcuate wall and an inner arcuate wall; the outer arcuate wall of the magnet housing is received in part in the arcuate recess of the sensor housing; and a portion of the drive unit mounting bracket is received in an arcuate recess defined by the inner arcuate wall of the magnet housing. 13. The outboard engine of claim 1 , wherein the magnet is disposed between the steering axis and the sensor in a radial direction. 14. A bracket assembly for mounting an outboard engine to a watercraft comprising: a stern bracket; a swivel bracket pivotally connected to the stern bracket about a generally horizontal tilt/trim axis; a drive unit mounting bracket pivotally connected to the swivel about a steering axis; and a steering position sensing system disposed between the drive unit mounting bracket and the swivel bracket in a direction parallel to the steering axis, the steering position sensing system comprising: an arcuate magnet; a magnet housing having an arcuate portion, the magnet being disposed in the magnet housing, the magnet housing being connected to one of the drive unit mounting bracket and the swivel bracket; a sensor housing connected to another one of drive unit mounting bracket and the swivel bracket, the magnet housing and the magnet being pivotable about the steering axis relative to the sensor housing, the one of the magnet housing and the sensor housing being connected to the drive unit mounting bracket being pivotable about the steering axis with the drive unit mounting bracket, the arcuate portion of the magnet housing being spaced from the sensor housing; and a sensor disposed in the sensor housing for sensing a magnetic field of the magnet to determine an angular position of the drive unit mounting bracket relative to the swivel bracket. 15. The bracket assembly of claim 14 , wherein the magnet housing is connected to the drive unit mounting bracket and the sensor housing is connected to the swivel bracket; and wherein the magnet housing and the magnet are pivotable about the steering axis with the drive unit mounting bracket. 16. The bracket assembly of claim 14 , wherein ends of the magnet housing define apertures; and further comprising fasteners inserted in the apertures and fastening the magnet housing to the drive unit mounting bracket. 17. The bracket assembly of claim 14 , wherein the magnet housing has a protrusion received in a recess defined in the drive unit mounting bracket. 18. The bracket assembly of claim 14 , wherein the drive unit mounting bracket is an upper drive unit mounting bracket; and further comprising a lower drive unit mounting bracket pivotally connecting the drive unit to the swivel bracket about the steering axis. 19. The bracket assembly of claim 14 , further comprising: a tilt actuator operatively connected to the stern bracket and the swivel bracket for pivoting the swivel bracket and the drive unit mounting bracket relative to the stern bracket about the tilt/trim axis; and a steering actuator operatively connected to the drive unit and the swivel bracket for pivoting the drive unit mounting bracket relative to the swivel bracket about the steering axis. 20. The bracket assembly of claim 19 , wherein the steering actuator is a rotary actuator. 21. The bracket assembly of claim 14 , wherein a center of curvature of the magnet and the arcuate portion of the magnet housing correspond to the steering axis. 22. The bracket assembly of claim 14 , wherein the sensor housing has a wall defining an arcuate recess, the arcuate portion of the magnet housing is received in part in the arcuate recess of the sensor housing, and the arcuate portion of the magnet housing is spaced from the wall; and an arc length of the magnet is greater than an arc length of the arcuate recess of the sensor housing. 23. The bracket assembly of claim 22 , wherein: the arcuate portion of the magnet housing has an outer arcuate wall and an inner arcuate wall; the outer arcuate