Sonar transducer array assembly and methods of manufacture thereof

What is claimed is: 1 . A sonar transducer array assembly comprising: a first flexible circuit including a first side, a second side, and a plurality of adhesive areas spaced apart and positioned in a line along one edge of the first side; a second flexible circuit including a first side, a second side, and a plurality of adhesive areas spaced apart and positioned in a line along one edge of the first side; and a plurality of transducer elements, each transducer element including a first surface attached to one of the adhesive areas of the first flexible circuit, an opposing second surface attached to one of the adhesive areas of the second flexible circuit, and a third surface positioned between the first and second surfaces, wherein the transducer elements form a linear array with the third surface of each transducer element in alignment and configured to transmit and receive an acoustic pressure wave. 2 . The sonar transducer array assembly of claim 1 , further comprising a mechanical insulating sleeve positioned to cover a portion of the first and second flexible circuits and to align with the transducer array. 3 . The sonar transducer array assembly of claim 2 , wherein the mechanical insulating sleeve contacts the second side of each of the first and second flexible circuits and the transducer elements at opposing ends of the transducer array. 4 . The sonar transducer array assembly of claim 1 , further comprising an insulating material occupying the space between adjacent transducer elements. 5 . The sonar transducer array assembly of claim 1 , wherein the first and second surfaces of each transducer element are coated with a metal. 6 . The sonar transducer array assembly of claim 1 , wherein the first and second flexible circuits each include a plurality of conductively plated vias extending from the first side to the second side and each transducer element is electrically connected to one via on the first flexible circuit and one via on the second flexible circuit. 7 . The sonar transducer array assembly of claim 6 , wherein the vias are filled with electrically conductive paste to electrically connect the transducer elements to the vias. 8 . The sonar transducer array assembly of claim 7 , wherein at least one of the adhesive areas of each flexible circuit form a gasket to prevent the conductive paste from shorting adjacent electrical channels. 9 . A method of manufacturing a sonar transducer array assembly, the method comprising the steps of: attaching a plurality of transducer elements to adhesive areas on a first flexible circuit so that the transducer elements form a transducer array; attaching the transducer array to adhesive areas on a second flexible circuit; electrically connecting the transducer array to the first flexible circuit and the second flexible circuit; filling spaces between the transducer elements; and placing a mechanical insulating sleeve on the assembly to cover a portion of the first and second flexible circuits and to align with the transducer array. 10 . The method of claim 9 , further comprising the step of applying adhesive to an array of rectangular areas positioned adjacent to one edge of the first flexible circuit with spaces therebetween to create the adhesive areas on a first side of the first flexible circuit before the transducer elements are attached to the first flexible circuit. 11 . The method of claim 9 , further comprising the step of applying adhesive to an array of rectangular areas positioned adjacent to one edge of the second flexible circuit with spaces therebetween to create the adhesive areas on a first side of the second flexible circuit before the second flexible circuit is attached to the transducer array. 12 . The method of claim 9 , further comprising the step of visually inspecting the transducer array before the second flexible circuit is attached. 13 . The method of claim 9 , further comprising the step of curing the assembly before filling the spaces between the transducer elements. 14 . The method of claim 9 , wherein the first flexible circuit includes a plurality of plated through holes, each positioned within one adhesive area and the second flexible circuit includes a plurality of plated through holes, each positioned within one adhesive area. 15 . The method of claim 14 , wherein the transducer array is electrically connected to the first flexible circuit and the second flexible circuit by filling the plated through holes of the first flexible circuit and the second flexible circuit with electrically conductive epoxy. 16 . The method of claim 14 , wherein the transducer array is electrically connected to the first flexible circuit and the second flexible circuit by soldering the transducer elements to the plated through holes of the first flexible circuit and the second flexible circuit. 17 . The method of claim 9 , wherein filling spaces between the transducer elements includes applying a urethane foam onto the transducer array. 18 . A sonar transducer array assembly manufactured by a method comprising the steps of: attaching a plurality of transducer elements to adhesive areas on a first flexible circuit so that the transducer elements form a transducer array; attaching the transducer array to adhesive areas on a second flexible circuit; electrically connecting the transducer array to the first flexible circuit and the second flexible circuit; filling spaces between the transducer elements; and placing a mechanical insulating sleeve on the assembly to cover a portion of the first and second flexible circuits and to align with the transducer array. 19 . The sonar transducer array assembly of claim 18 , wherein the first flexible circuit includes a plurality of plated through holes, each positioned within one adhesive area and the second flexible circuit includes a plurality of plated through holes, each positioned within one adhesive area. 20 . The sonar transducer array assembly of claim 19 , wherein the transducer array is electrically connected to the first flexible circuit and the second flexible circuit by filling the plated through holes of the first flexible circuit and the second flexible circuit with electrically conductive epoxy.