Abstract

In response to the application demand in the field of hydroacoustic for high efficiency transmitting and high sensitivity receiving, overlapping frequency bands of transmitting and receiving, and structurally integrated high frequency hydroacoustic transducer. In this paper, a high-sensitivity transducer with integrated transmit and receive is developed. The transducer consists of two parts: the transmitting unit is 1–3 type piezoelectric composite material; the receiving unit is single metal plate air column array structure, and the effective electromechanical coupling coefficient is improved by changing the piezoelectric ceramic structure, thus improving the receiving sensitivity. Through theoretical analysis and finite element analysis determined the conditions of integration of transmitting and receiving. Finally, the transducer prototype was fabricated and tested. The results showed that the resonant frequency of the transmitter unit was 249 kHz, the anti-resonant frequency of the receiver unit was 253 kHz, and the maximum transmit voltage response and receive sensitivity were 180.1 dB and −175.8 dB, respectively, which satisfied the transceiver condition and high sensitivity performance.

Full Text
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