Frequency steered sonar hardware

Having thus described various embodiments of the technology, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A frequency steered sonar element comprising: a transducer element presenting a longitudinal axis, the transducer element configured to receive a transmit electronic signal and generate an acoustic wave with a frequency component corresponding to a frequency component of the transmit electronic signal, the transmit electronic signal having one of a plurality of frequency components over a period of time; and a grating element presenting a longitudinal axis, the grating element oriented such that the longitudinal axis of the grating element and the longitudinal axis of the transducer element form an acute angle, the grating element including a first surface and an opposing second surface, at least one of the surfaces including one or more grooves distributed thereon, the grating element configured to receive the acoustic wave and emit a sonar beam in one of a plurality of angular directions; wherein the angular direction of the sonar beam corresponds to the frequency component of the acoustic wave over the period of time; and wherein a sonar wedge is formed by each angular direction of the sonar beam. 2. The frequency steered sonar element of claim 1 , further comprising a housing with spaced-apart first and second walls between which the transducer element and the grating element are positioned, with at least a portion of the space between the first and second walls is filled with a solid or fluid filler material. 3. The frequency steered sonar element of claim 1 , wherein the grating element is further configured to receive reflections of the sonar beam and the transducer element is further configured to generate a receive electronic signal with a frequency component that indicates the angular direction from which the reflections were received. 4. The frequency steered sonar element of claim 1 , wherein the transducer element is spaced apart from the grating element and faces the first surface of the grating element. 5. The frequency steered sonar element of claim 1 , wherein the one or more grooves has a periodic profile. 6. The frequency steered sonar element of claim 1 , wherein the one or more grooves includes first and second facets, at least one of the first or second facets is oriented at an acute angle with respect to the second surface and each groove has a sawtooth profile. 7. The frequency steered sonar element of claim 2 , wherein the grating element is positioned such that the one or more grooves are accessible between lower surfaces of the first and second walls. 8. The frequency steered sonar element of claim 7 , wherein the grating element is configured to transmit the acoustic wave of the transducer element as the sonar beam. 9. The frequency steered sonar element of claim 2 , wherein the grating element is positioned such that the one or more grooves are accessible between side surfaces of the first and second walls. 10. The frequency steered sonar element of claim 9 , wherein the grating element is configured to reflect the acoustic wave of the transducer element as the sonar beam. 11. The frequency steered sonar element of claim 1 , wherein the transducer element is formed from piezoelectric material and the grating element is formed from silicone rubber. 12. A frequency steered sonar element comprising: a housing including first and second spaced apart walls; a transducer element presenting a longitudinal axis, the transducer element configured to receive a transmit electronic signal and generate an acoustic wave with a frequency component corresponding to a frequency component of the transmit electronic signal, the transmit electronic signal having one of a plurality of frequency components over a period of time; and a grating element presenting a longitudinal axis, the grating element oriented such that a longitudinal axis of the grating element and a longitudinal axis of the transducer element form an acute angle, the grating element including a first surface and an opposing second surface, at least one of the surfaces including one or more grooves distributed thereon, the grating element configured to receive the acoustic wave and transmit the acoustic wave as a sonar beam in one of a plurality of angular directions; wherein an angular direction of the sonar beam corresponds to the frequency component of the acoustic wave over the period of time; and wherein a sonar wedge is formed by each angular direction of the sonar beam. 13. The frequency steered sonar element of claim 12 , wherein the one or more grooves includes first and second facets, at least one of the first or second facets is oriented at an acute angle with respect to the second surface and the one or more grooves has a sawtooth profile. 14. The frequency steered sonar element of claim 12 , wherein the grating element is further configured to receive reflections of the sonar beam and the transducer element is further configured to generate a receive electronic signal with a frequency component that indicates the angular direction from which the reflections were received. 15. The frequency steered sonar element of claim 12 , wherein the transducer element is formed from piezoelectric material and the grating element is formed from silicone rubber. 16. A frequency steered sonar element comprising: a housing including a plurality of spaced apart walls; a plurality of sonar beam formers, each sonar beam former positioned between adjacent pairs of walls and having a unique orientation within the housing, each sonar beam former comprising— a transducer element presenting a longitudinal axis, the transducer element configured to receive a transmit electronic signal and generate an acoustic wave with a frequency component corresponding to a frequency component of the transmit electronic signal, the transmit electronic signal having one of a plurality of frequency components over a period of time, and a grating element associated with the transducer element and presenting a longitudinal axis, the grating element oriented such that a longitudinal axis of the grating element and a longitudinal axis of the transducer element form an acute angle, the grating element including a first surface and an opposing second surface, at least one of the surfaces including one or more grooves distributed thereon, the grating element configured to receive the acoustic wave from the associated transducer element and emit a sonar beam in one of a plurality of angular direction; wherein the angular direction of the sonar beam corresponds to the frequency component of the acoustic wave and the orientation of the transducer element and the grating element over the period of time; and wherein a sonar wedge is formed by each angular direction of the sonar beam. 17. The frequency steered sonar element of claim 16 , wherein each grating element is further configured to receive reflections of its previously generated sonar beam and the associated transducer element is further configured to generate a receive electronic signal with a frequency component that indicates the angular direction from which the reflections were received. 18. The frequency steered sonar element of claim 16 , wherein each grating element has a length that is greater than a length of the associated transducer element. 19. The frequency steered sonar element of claim 16 , wherein the one or more groove of each grating element includes first and second fa