Attenuation of Curved Structural Surfaces in PMUT Measurements

S. Pala, Yande Peng, Hong Ding, J. Xie, Liwei Lin
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引用次数: 2

Abstract

This work presents the attenuation effect due to the surface curvature for the ultrasound pulse-echo detection scheme. The magnitude of attenuation due to the curved surface is simulated and experimentally validated by a piezoelectric micromachined transducer (pMUT) array as a model with 39 × 39 elements and 3 mm × 3mm in size made of 1 µm-thick A1N piezoelectric layer, and 5 urn-thick Si elastic layer. Experimental validations have been conducted to measure the diameter variations of silicone tubes with different diameters in the mineral oil environment to mimic the acoustic properties of the human tissue and blood vessel. Under an applied voltage of 12 V, three sine cycles of 1–10 MHz frequency are emitted and the echo signals from tubes with diameters 2 to 12 mm at a distance of 25 mm are captured. The measured and simulated attenuation is around 7dB for those surfaces to emulate arteries and veins for applications in blood pressure measurements. These results help both the design and analysis of ultrasound detections by pMUTs encountering non-flat surfaces both qualitatively and quantitatively for various applications.
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PMUT测量中弯曲结构表面的衰减
本文研究了超声脉冲回波检测方案中由于表面曲率引起的衰减效应。利用1 μ m厚的A1N压电层和5 μ m厚的Si弹性层,以39 × 39单元、尺寸为3mm × 3mm的压电微机械换能器(pMUT)阵列为模型,对曲面衰减幅度进行了仿真和实验验证。实验验证了不同直径硅胶管在矿物油环境下的直径变化,以模拟人体组织和血管的声学特性。在12v的电压下,发射3个频率为1 - 10mhz的正弦周期,在距离为25mm的直径为2至12mm的管中捕获回波信号。这些表面的测量和模拟衰减约为7dB,用于模拟血压测量中的动脉和静脉。这些结果有助于设计和分析pmut遇到非平坦表面的超声波检测,定性和定量地用于各种应用。
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