We present the operation of capacitive micromachined ultrasonic transducers (CMUTs) in permanent contact mode as an efficient transducer. The gap height of our transducers is chosen to be slightly smaller than the static deflection of the plate due to the pressure difference between the ambient and the vacuum cavity. Thus, the plates are in contact with the bottom of the cavities even with no dc bias applied. The devices were fabricated based on the thick box process. High-temperature assisted direct wafer bonding technique was used to fabricate devices with such large cell size (radii ~ 2000 μm) featuring low frequencies ~100 - 150 kHz. Extensive acoustic characterization was performed to demonstrate the behavior of such CMUTs in terms of displacement profile, output pressure and acoustic pitch-catch response. A maximum sound pressure of ~145 dB (SPL) at the transducer surface is measured at 240 V dc and 10 V ac with 100 cycles of burst signal. This is a great improvement from conventional CMUTs (with deeper gap height, operating at 55 kHz), which requires 350 V dc and 200 V ac in order to achieve an output pressure of 129 dB (SPL) at the transducer surface. The results presented in this paper demonstrate that operating CMUTs in permanent contact mode indeed enhances the device output pressure, and provides a good candidate for efficient ultrasonic transducers.
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机译:我们介绍了电容式微机械超声换能器(CMUT)在永久接触模式下的运行情况,它是一种有效的换能器。由于环境和真空腔之间的压力差,我们的换能器的间隙高度选择为略小于板的静态挠度。因此,即使没有施加直流偏压,板也与空腔的底部接触。器件是根据厚盒工艺制造的。高温辅助直接晶圆键合技术被用于制造具有如此大的单元尺寸(半径〜2000μm),低频〜100-150 kHz的器件。进行了广泛的声学表征,以证明此类CMUT在位移曲线,输出压力和声学音高捕捉响应方面的行为。在240 V dc和10 V ac的情况下,在100个突发信号周期内,测得的换能器表面的最大声压约为145 dB(SPL)。这是对常规CMUT(间隙深度更深,工作于55 kHz)的一项重大改进,后者需要350 V dc和200 V ac才能在换能器表面实现129 dB(SPL)的输出压力。本文介绍的结果表明,在永久接触模式下操作CMUT确实会增强设备的输出压力,并为高效超声换能器提供了良好的候选者。
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