The outer cavity Janus-Helmholtz with sound insulation layer is presented for ob- taining the capacity of high-power non-directional transmitting. The radiation efficiency and directivity in the 0 degrees direction ca...The outer cavity Janus-Helmholtz with sound insulation layer is presented for ob- taining the capacity of high-power non-directional transmitting. The radiation efficiency and directivity in the 0 degrees direction can be improved when the radiation mode is changed by laying sound insulation layer. The operating bandwidth can be expanded effectively by the dual mode coupling between the cavity vibration and longitudinal vibration of Janus transducer. A prototype is designed by finite element method. Test results show that the results are in good agreement with the design results. Compared with inner cavity Janus-Helmholtz transducer, acoustic radiation performance of outer cavity Janus-Helmholtz underwater acoustic transducer in the 0 degrees direction has been significantly improved.展开更多
基金supported by the National Natural Science Foundation of China(11304057)the Opening Fund of Acoustics Science and Technology Laboratory(SSKF2015001)
文摘The outer cavity Janus-Helmholtz with sound insulation layer is presented for ob- taining the capacity of high-power non-directional transmitting. The radiation efficiency and directivity in the 0 degrees direction can be improved when the radiation mode is changed by laying sound insulation layer. The operating bandwidth can be expanded effectively by the dual mode coupling between the cavity vibration and longitudinal vibration of Janus transducer. A prototype is designed by finite element method. Test results show that the results are in good agreement with the design results. Compared with inner cavity Janus-Helmholtz transducer, acoustic radiation performance of outer cavity Janus-Helmholtz underwater acoustic transducer in the 0 degrees direction has been significantly improved.
