360 degree imaging sonar and method

1 - 66 . (canceled) 67 . A 360-degree sonar imaging system, comprising: a sonar transducer assembly comprising: a motor having a rotatable shaft; a sonar element carrier having a first sonar element mounted therein, the sonar element carrier coupled to the rotatable shaft; and a controller for driving the first sonar element and for communicating information received from the sonar elements; a deployment mechanism coupled to the sonar transducer assembly for deployment and retraction thereof; wherein the controller is configured to communicate with a control head to enable display of 360-degree sonar images on a display screen of the control head; wherein the deployment mechanism is a transom-mounted deployment mechanism comprising: a housing configured to mount to the transom of a boat; an extendable shaft disposed at least partially within the housing in a deployed position, a substantial length of the extendable shaft being positioned within the housing in a retracted position, and the sonar transducer assembly attached to one end of the extendable shaft disposed underwater; wherein the sonar transducer assembly is closest to the boat in the retracted position and farther from the boat in the deployed position. 68 . The 360-degree sonar imaging system of claim 67 , wherein the transom-mounted deployment mechanism further comprises a constant force spring configured to aid in the retraction of the sonar transducer assembly. 69 . The 360-degree sonar imaging system of claim 68 , wherein the constant force spring comprises a metal coil situated on a spool and coupled to the extendable shaft. 70 . The 360-degree sonar imaging system of claim 67 , wherein the transom-mounted deployment mechanism includes a button or switch for motorized deployment or retraction of the sonar transducer assembly. 71 . The 360-degree sonar imaging system of claim 70 , wherein the button or switch is configured to move the sonar transducer assembly by a fixed amount each time the button or switch is activated. 72 . The 360-degree sonar imaging system of claim 67 , wherein the transom-mounted deployment mechanism is deployed and retracted by a powered drive mechanism. 73 . The 360-degree sonar imaging system of claim 67 , wherein the transom-mounted deployment mechanism is configured to be deployed and retracted manually. 74 . The 360-degree sonar imaging system of claim 67 , wherein the transom-mounted deployment mechanism further comprises a linear actuation system in which the sonar transducer assembly is deployed and retracted by a motor-driven chain. 75 . The 360-degree sonar imaging system of claim 74 , wherein the motor-driven chain is driven by a motor having a rotary encoder. 76 . The 360-degree sonar imaging system of claim 67 , wherein the control head includes a control mechanism to deploy and retract the sonar transducer assembly. 77 . The 360-degree sonar imaging system of claim 76 , wherein the control mechanism is configured to move the sonar transducer assembly by a fixed amount. 78 . The 360-degree sonar imaging system of claim 67 , wherein the controller is configured to communicate, to the display screen, a combination view showing a 360-degree sonar image and a chart image simultaneously. 79 . The 360-degree sonar imaging system of claim 67 , wherein the controller is configured to process present and historic GPS data, sonar data, and compass data in a way that allows a user to record and store one or more waypoints at any selected location on the 360-degree sonar image. 80 . The 360-degree sonar imaging system of claim 79 , wherein the controller is configured to record and store a route having a series of waypoints, the controller further configured to cause the route to be displayed on the 360-degree sonar image. 81 . The 360-degree sonar imaging system of claim 79 , wherein the selected location on the 360-degree sonar image is converted to a sonar range and referenced to a historic sonar ping number used to calculate a GPS position for the selected location on the 360-degree sonar image. 82 . The 360-degree sonar imaging system of claim 81 , wherein the historic sonar ping number includes a stored boat GPS position, boat heading, water depth, and sonar element carrier bearing. 83 . The 360-degree sonar imaging system of claim 67 , wherein the sonar transducer assembly has a housing that is filled with acoustic coupling fluid. 84 . The 360-degree sonar imaging system of claim 67 , wherein the controller is configured to communicate, to the display screen, a combination view simultaneously showing a 360-degree sonar image and a down-scanning sonar image. 85 . The 360-degree sonar imaging system of claim 67 , wherein the controller is configured to communicate, to the display screen, a combination view simultaneously showing a 360-degree sonar image and a two-dimensional down-beam sonar display for fishing applications. 86 . The 360-degree sonar imaging system of claim 67 , wherein the controller is configured to perform a zoom function that communicates, to the display screen, an enlarged view of a previous 360-degree sonar image, wherein the enlarged view is taken from a center portion of the previous 360-degree sonar image. 87 . The 360-degree sonar imaging system of claim 67 , wherein the controller is configured to perform a zoom function that communicates, to the display screen, an enlarged view of a previous 360-degree sonar image, wherein the enlarged view is centered on a cursor position from the previous 360-degree sonar image. 88 . The 360-degree sonar imaging system of claim 67 , wherein the sonar element carrier further comprises a second sonar element mounted therein, the second sonar element configured to be driven by the controller. 89 . The 360-degree sonar imaging system of claim 88 , wherein a sonar signal from the first sonar element is processed exclusively by a first sonar receiver, and a sonar signal from the second sonar element is processed exclusively by a second sonar receiver. 90 . The 360-degree sonar imaging system of claim 67 , wherein the first sonar elements is mounted such that its imaging beam has a depression angle of between 20 and 40 degrees. 91 . The 360-degree sonar imaging system of claim 90 , wherein the depression angle is 30 degrees. 92 . A 360-degree sonar imaging system, comprising: a sonar transducer assembly comprising: a motor having a rotatable shaft; a sonar element carrier having a first sonar element mounted therein, the sonar element carrier coupled to the rotatable shaft; and a controller for driving the first sonar element and for communicating information received from the sonar elements; a deployment mechanism coupled to the sonar transducer assembly for deployment and retraction thereof; wherein the controller is configured to communicate with a control head to enable display of 360-degree sonar images on a display screen of the control head; and wherein the deployment mechanism comprises a trolling motor deployment mechanism comprising: a mounting shaft having the sonar transducer assembly attached to one end thereof, the mounting shaft arranged in a substantially parallel orientation to a trolling motor support shaft. 93 . The 360-degree sonar imaging system of claim 92 , wherein the mounting shaft is attached to a non-rotating portion of a