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首页> 外文期刊>IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control >Theoretical analysis of micro-machined ultrasonic transducer using a simple 1-D model
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Theoretical analysis of micro-machined ultrasonic transducer using a simple 1-D model

机译:使用简单的一维模型对微机械超声换能器进行理论分析

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摘要

Micro-machined ultrasonic transducers (MUT) appear as an attractive alternative to standard bulk transducers mainly based on PZT ceramic actuators. However, the simulation of these new devices requires one to take correctly into account their operating conditions. Particularly, most of the MUT structures are periodic, associating a very large number of elementary actuators excited in phase. Furthermore, the development of an equivalent to the Mason model for MUTs would help in the promotion of this new kind of transducers. In this work, we propose a very simple model based on the material resistance theory to describe the flexural motion of a MUT. It is associated with a periodic Green's function development to take into account radiation in water. Basic working principles of MUT then are deduced from computing results, which coincides with already published data on that topic.
机译:微机械超声换能器(MUT)似乎是主要基于PZT陶瓷执行器的标准体式换能器的一种有吸引力的替代品。但是,对这些新设备的仿真需要正确考虑其工作条件。特别是,大多数MUT结构是周期性的,将非常大量的基本激励器同相激励。此外,为MUT开发等效于梅森模型的模型将有助于推广这种新型换能器。在这项工作中,我们提出了一个基于材料阻力理论的非常简单的模型来描述MUT的弯曲运动。考虑到水中的辐射,这与格林的定期功能开发有关。然后从计算结果中得出MUT的基本工作原理,这与有关该主题的已发布数据相吻合。

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