Design and fabrication of a miniaturized annular array

N. Bourriot, Sylvain Ballandras, W. Steichen, P. Maitre, B. Piwakowski, J. Gelly, B. Piranda, R. Muksch
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引用次数: 5

Abstract

Advances in microtechnology reinforce the interest in the development of miniaturized transducers for endoscopic imaging applications. The present work is devoted to the design and fabrication of miniaturized annular array transducer. A first design of the transducer has been performed using an analysis of the radiated pressure in a semi-infinite liquid based on a time-domain computation (DREAM program). The selected structure has been then simulated using an harmonic FEA taking piezoelectricity and material losses into account. A simplified boundary condition based on a plane wave radiation condition was used to simulate the immersed regime of the transducer. However, this approach allows one to estimate the pressure at the radiation surface of the transducer which can be used to improve the calculation of the acoustic pressure distribution in the liquid. The results of this design approach can be used to fabricate a test structure using ultrasound micromachining techniques adapted to sub-millimeter structure applications (resolution in the range 50 microns, machining depth close to 1 mm). A 2 mm diameter annular PZT structure has been built and tested. Theoretical and experimental results concerning the admittance of the annular array are compared. Design consideration for the fabrication of the 1.2 mm diameter transducer are exposed and discussed.
小型化环形阵列的设计与制造
微技术的进步加强了对内窥镜成像应用的小型化换能器的开发兴趣。本文主要研究了小型化环形阵列换能器的设计与制造。利用时域计算(DREAM程序)对半无限大液体中的辐射压力进行了分析,完成了换能器的初步设计。然后使用谐波有限元法对所选结构进行了模拟,并考虑了压电性和材料损耗。采用基于平面波辐射条件的简化边界条件来模拟换能器的浸入状态。然而,这种方法可以估计换能器辐射表面的压力,这可以用来改进液体中声压分布的计算。该设计方法的结果可用于使用适用于亚毫米结构应用的超声微加工技术制造测试结构(分辨率在50微米范围内,加工深度接近1毫米)。建立并测试了直径为2mm的环形压电陶瓷结构。对环形阵列导纳的理论和实验结果进行了比较。对直径1.2 mm换能器的设计考虑进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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