System and method for maintaining sonar imaging of a structure regardless of boat orientation

What is claimed is: 1. A sonar target locking system to position a sonar array to maintain a beam of the sonar array pointing at an user set target comprising: an electro-mechanical assembly operable to carry and position the sonar array; a positioning system configured to determine changes in the position of the sonar array relative to a position of the user set target; and a controller configured to use the position of the user set target and the changes in the position of the sonar array to control the electro-mechanical assembly to steer the position of the sonar array so that the beam of the sonar array remains pointed at the position of the user set target. 2. The sonar target locking system of claim 1 , wherein: the positioning system is configured to identify a position of the user set target, the positioning system has a user input device; and the positioning system, in a first mode, identifies the position of the user set target when the user input device is activated, the positioning system identifying the user set target based on an axis defined by an orientation of the sonar array and a distance from a location of the sonar array when the user input device is activated along the axis. 3. The sonar target locking system of claim 2 , wherein the sonar array is operably connected to a fish finder control head that displays an image based on data generated by the sonar array, the image having a horizontal distance component, the distance from the sonar array used to identify the user set target is a percentage of the horizontal distance component of the image displayed on the fish finder control head, the percentage being less than 100 percent. 4. The sonar target locking system of claim 2 , wherein the distance from the sonar array is a predetermined fixed value. 5. The sonar target locking system of claim 2 , wherein the distance from the sonar array is a user defined value. 6. The sonar target locking system of claim 2 , wherein the user input device is a button on at least one of a foot pedal and a fish finder control head in operable communication with the positioning system. 7. The sonar target locking system of claim 2 , wherein the positioning system includes a GPS unit for determining changes in the position of the sonar array relative to the user set target. 8. The sonar target locking system of claim 2 , wherein the orientation of the sonar array is determined using a heading sensor. 9. The sonar target locking system of claim 7 , wherein in a second mode, the position of the user set target is identified by a user input waypoint having coordinates within a coordinate system of the GPS unit. 10. The sonar target locking system of claim 9 , wherein in the second mode, the coordinates of the waypoint can be identified by a user selecting a location representative of a map being displayed on a fish finder control unit in communication with the positioning system. 11. The sonar target locking system of claim 2 , wherein the distance from the sonar array is measured in a horizontal plane. 12. The sonar target locking system of claim 2 , wherein the distance from the sonar array is compensated by a depth component. 13. A sonar imaging system comprising: a sonar target locking system of claim 2 ; and a sonar array attached to the electro-mechanical assembly. 14. The sonar target locking system of claim 1 , wherein the electro-mechanical assembly includes a first actuator for rotating the sonar array about a first axis being horizontal. 15. The sonar target locking system of claim 14 , wherein the controller automatically controls the first actuator based on changes in depth information at either of a location of the sonar array or the position of the user set target. 16. The sonar target locking system of claim 15 , wherein the controller controls the first actuator to orient the beam of the sonar array to be more outward facing when the depth information indicates a decrease in depth and the controller controls the second actuator to orient the beam of the sonar array to be more downward facing when the depth information indicates an increase in depth. 17. The sonar target locking system of claim 14 , further comprising a user input device for selectively generating a first control signal to actuate the first actuator to rotate in a first direction about the first axis and for selectively generating a second control signal to actuate the first actuator to rotate in a second direction about the second axis, the second direction being opposite the first direction. 18. The sonar target locking system of claim 14 , further comprising a second actuator for rotating about a second axis being vertical. 19. The sonar target locking system of claim 18 , wherein the first actuator makes adjustments in an orientation of the beam in a vertical plane and the second actuator makes adjustments in the orientation of the beam in a horizontal plane. 20. A sonar imaging system comprising: a sonar target locking system of claim 14 ; a sonar array attached to the electro-mechanical assembly. 21. The sonar positioning system of claim 1 , wherein the controller is configured to automatically control the electro-mechanical assembly to orient the sonar array to a predetermined orientation upon an input signal. 22. The sonar positioning system of claim 21 , wherein: the electro-mechanical assembly is deployable and stowable between a deployed position where the sonar array would be carried within a body of water and a stowed position wherein the sonar array would be carried out of the body of water; and the input signal is generated upon a transition of the electro-mechanical assembly from the stowed position to the deployed position. 23. The sonar positioning system of claim 21 , wherein the predetermined orientation corresponds to: orienting the beam of the sonar array parallel to a centerline of a watercraft to which the electro-mechanical assembly is mounted; or orienting the beam of the sonar array towards the position of a user set target that was created prior to the electro-mechanical assembly being deployed and the input signal is deployment of the electro-mechanical assembly. 24. The sonar target locking system of claim 1 , further comprising a user input device for manually controlling the electro-mechanical assembly to position the sonar array; wherein when the controller is controlling the electro-mechanical assembly to steer the position of the sonar array based on changes in the position of the sonar array relative to the user set target and the user input device is activated to manually control the electro-mechanical assembly to manually steer the position of the sonar array, upon discontinued manual control of the electro-mechanical assembly, the controller automatically controls the electro-mechanical assembly to aim the sonar array such that the beam is aimed at the position of the user set target at which the beam was being aimed prior to activation of the user input device. 25. The target locking system of claim 1 , further comprising a user input device for manually controlling the electro-mechanical assembly to position the sonar array; wherein when the controller is controlling the electro-mechanical assembly to steer the position of the sonar array based on changes in the position of the sonar array relative to the user set target and the user input device is activated to manually control the