Experimental Study of the Dynamic Behavior of Pulses Emitted by a Linear System of Electromechanical Transducers

Q3 Physics and Astronomy
O. Leiko, A. Derepa, O. M. Pozdniakova, Y. Starovoit, P. Popovych
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Abstract

A significant difference between electrical impulses, used for stimulation of elements of the acoustic location systems, and acoustic pulses, emitted by the systems, that occurs in the systems during their operation, has been discovered experimentally. Physical reasons for the appearance of these differences, for linear systems of electromechanical piezoceramic transducers, are transients in electromechanical oscillatory systems of transducers and spatial spread of the systems. It is shown that the first reason is caused by the inertia of the transducers and the second – by the delay in the wave front when it propagates along the system.Typical dynamical changes in acoustic pulses, depending on the causes of their occurrence, were discovered. It is shown that the inertia of the mechanical oscillatory systems causes smooth increases and decreses, of the front and rear edges of acoustic pulses, respectively, in the directions of main and side lobes of the directivity of the system.It was discovered that typical dynamic changes in acoustic pulses caused by the delay in the front edge of the emitted wave, for the directions that are distant from the main and side lobes and interference zeros of the directivity, led to significant increase of their length, compared to electric ones and to the emergence of dips in the pulses’ amplitudes between their edges and their long sound after the end of the electrical stimulation of the systems’ transducers. Displayed dynamic changes in the emitted acoustic pulses compared to electrical stimulation pulses significantly worsen the parameters of location systems evaluated by the parameters of electrical impulses. Therefore, they must be considered when designing such systems.
机电换能器线性系统脉冲动态特性的实验研究
实验发现,用于刺激声定位系统元件的电脉冲与在系统运行过程中由系统发出的声脉冲之间存在显著差异。对于线性机电压电换能器系统,产生这些差异的物理原因是换能器的机电振荡系统的瞬态和系统的空间扩散。结果表明,第一种原因是由换能器的惯性引起的,第二种原因是由波前沿系统传播时的延迟引起的。发现了声脉冲的典型动力学变化,这取决于它们发生的原因。结果表明,在机械振荡系统的惯性作用下,声脉冲的前后沿在系统指向性的主叶和副叶方向上分别平滑地增大和减小。研究发现,在远离主瓣和副瓣的方向上,由于发射波前缘的延迟以及指向性的干扰零点,声脉冲发生了典型的动态变化,导致声脉冲的长度比电脉冲明显增加,并且在系统换能器的电刺激结束后,声脉冲的边缘和长声之间的幅度出现了下降。与电刺激脉冲相比,声脉冲发射的动态变化显著恶化了以电脉冲参数评价的定位系统参数。因此,在设计此类系统时必须考虑它们。
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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来源期刊
Journal of Nano-and electronic Physics
Journal of Nano-and electronic Physics Materials Science-Materials Science (all)
CiteScore
1.40
自引率
0.00%
发文量
69
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