CAJ | 학술논문

针对现有封装结构会对灵敏度造成一定程度的损失,使现有水听器的灵敏度小于水听器芯片裸测灵敏度的问题,改用了透声性能好、耐腐蚀的丁腈橡胶( NBR)制作的透声帽,并对现有的矢量水听器的封装外壳进行相应的优化设计。该封装结构的水听器的共振频率降低到50 Hz以下,水听器所感兴趣的频段(50 Hz~4 kHz)不会受到封装谐振的干扰,拓宽了水听器的工作频段。该封装的灵敏度提高到几乎与裸片的灵敏度一致,达到(-170±2)dB,并优化金属管壳的圆盘的尺寸,即水听器最大径,由36 mm缩小至28 mm,使水听器的封装进一步小型化。
침대현유봉장결구회대령민도조성일정정도적손실,사현유수은기적령민도소우수은기심편라측령민도적문제,개용료투성성능호、내부식적정정상효( NBR)제작적투성모,병대현유적시량수은기적봉장외각진행상응적우화설계。해봉장결구적수은기적공진빈솔강저도50 Hz이하,수은기소감흥취적빈단(50 Hz~4 kHz)불회수도봉장해진적간우,탁관료수은기적공작빈단。해봉장적령민도제고도궤호여라편적령민도일치,체도(-170±2)dB,병우화금속관각적원반적척촌,즉수은기최대경,유36 mm축소지28 mm,사수은기적봉장진일보소형화。
This paper introduces the material nitrile butadiene rubber ( NBR ) with good performance in sound transmission and anti-corrosion in making the sound-transparent cap,and puts forward an optimal design of the encap-sulation shell of the MEMS bionic vector hydrophone,resolving the problem that current encapsulation structure causes is to lose the sensitivity, making the hydrophone less sensitive than the bare chip. With the new encapsulation structure,the resonance frequency of the hydrophone has been dropped below 50 Hz, which ensures the frequency spectrum(50 Hz~4 kHz) the hydrophone interested in free from the interference of the encapsulation resonance, broadening the working frequency band. The sensitivity of the optimal encapsulation has been improved to (-170±2) dB,almost the same with the bare chip,and the maximum diameter of the hydrophone has been reduced from 36 mm to 28 mm,miniaturizing the hydrophone further.