The goal of this Phase I program is to develop broadband single crystal sonar for the ATT. Single crystal piezoelectric is a high energy density, highly efficient piezoelectric material that is being used to develop acoustic and ultrasonic transducers with bandwidths much higher than has been possible with conventional ceramic materials. For sonar, broad bandwidth is especially important for operations in littoral waters where sensitivity to a wide frequency range is important for sorting out signals of interest in a noisy and acoustically cluttered environment. In fact, it has been shown for many sonar applications that single crystals can provide broadband response (bandwidth >100%) and increased acoustic power in a much smaller transducer size that requires less electrical power. This makes single crystal sonar ideal for compact space and power constrained platforms such as towed minehunters, UUVs USVs, countermeasures, ACOMMS buoys, and torpedoes. TRS and Penn State ARL will develop and qualify single crystal transducer arrays for the ATT. Broad bandwidth will enable the realization of expanded mission goals such as salvo operation TRS and ARL will then optimize the design of single crystal transducers for the torpedo, and conduct standard single element transducer tests to verify performance.
Benefit: In fact, it has been shown for many sonar applications that single crystals can provide broadband response (bandwidth >>100%) and increased acoustic power in a much smaller transducer size that requires less electrical power. This makes single crystal sonar ideal for compact space and power constrained platforms such as towed minehunters, UUVs USVs, countermeasures, ACOMMS buoys, and torpedoes. All of these must operate in littoral waters, and all have missions that can benefit from broadband sonar
Keywords: reduced side lobes, reduced side lobes, wide angle besm stearing, wideband frequency responce, Tonpilz transducer
