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作 者:童晖[1] 周益明[1] 王佳麟[1] 翁汝莲[1]
机构地区:[1]中国科学院声学所东海研究站,上海200032
出 处:《声学技术》2013年第6期524-527,共4页Technical Acoustics
摘 要:主要研究高频换能器的匹配层技术,通过匹配层技术拓宽换能器的频带,首先利用等效电路法分析高频匹配层换能器,其次通过Matlab仿真分析匹配层材料的密度、声速、厚度变化对换能器电声参数性能的影响,进而对其电声性能进行优化设计,最终制作出一高频宽带换能器。通过实验测得结果与仿真结果基本一致,实验测得换能器的最大发送电压响应为178dB,工作频带为260~370kHz,带内发送电压响应起伏为-3dB,300kHz时换能器指向性-3dB开角为6.5°。This paper mainly investigated the matching layer technique for high frequency transducers. High-frequency transducer with a matching layer was first analyzed with equivalent circuit method. Then, the effect of matching layer parameters on the acoustic transducer performance was summarized by simulation. And its electro-acoustic characte- ristics were optimized. Finally, a high frequency broadband transducer was designed. Experimental results are in agreement with the theoretical values. It was shown that (i) the maximal transmitting sound level can reach 178 dB; (ii) the bandwidth of the transducer is 260-370 kHz; (iii) the fluctuation of the transmitting voltage response is -3 dB; (iv) the transducer has a directional angle of 6.5 degree with -3 dB @ 300kHz.
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