水听器
材料科学
声学
激光多普勒测振仪
传感器
压电
振膜(声学)
铌酸锂
声压
超声波传感器
单层压电片
光学
双晶片
压力传感器
激光扫描测振法
激光多普勒测速
PMUT公司
多普勒效应
超声波
锆钛酸铅
微电子机械系统
激光器
频率响应
宽带
振动
啁啾声
表面微加工
表征(材料科学)
声纳
频率调制
作者
Zihuan Liu,Xiaoyu Niu,Ehsan Vatankhah,Yuqi Meng,R. Lu,Neal A. Hall
摘要
This study introduces the first demonstration and quantitative characterization of a lithium niobate (LN) piezoelectric micromachined ultrasound transducer (PMUT) in immersion. Each PMUT diaphragm is a unimorph comprising an 800 nm-thick LN layer on top of a 2.0-µm-thick silicon dioxide layer. A lateral electric field is induced in the LN film using electrodes on the diaphragm surface. A range of diaphragm sizes and shapes are possible. This study focuses on experimental characterization of the transmit capabilities of an isolated rectangular diaphragm with dimensions 240 µm × 75 µm. In the first study, light from a laser Doppler vibrometer (LDV) was focused through mineral oil to measure the diaphragm’s vibration in response to a broadband chirp input, thereby obtaining the transmit frequency response. In a second study using tone burst waveforms, a hydrophone was used to measure the free-field pressure in oil generated by the transducer. Our characterization shows a transmit sensitivity equal to 5.5 kPa surface pressure per volt. We estimate an achievable maximum surface pressure equal to 400 kPa across the 0.5–5 MHz frequency range. Future work entails further optimizing the transducers for larger output pressure, targeting 1 MPa, and using these transducers in implantable biomedical phased arrays.
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