利用抛物面反射器制作灵敏度图的空气耦合探头自测试。

Linas Svilainis;Jorge Camacho Sosa Dias;Darius Kybartas;Andrius Chaziachmetovas;Valdas Eidukynas
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引用次数: 0

摘要

在空气耦合探头表面上的空间分布传导效率被认为是探头完整性检测的一种便捷工具。在这项研究中,抛物面反射器用于被动聚焦被检测探头表面的声波。因此,检测时不需要额外的传感器:探头可用于自检。这种方法可以避免使用昂贵的聚焦换能器,而代之以与被测探头相同类型的空气耦合换能器。此外,使用抛物面反射镜进行聚焦与频率无关,因此这种方法可以对各种探头进行检测。扩频信号用于激励,以提高信噪比和带宽覆盖率。实验测量了带有天然和人工缺陷的空气耦合传感器灵敏度图的结果。与之前提出的技术进行了比较。结果发现,缺陷的存在会扭曲聚焦光束,产生较大的侧边。因此,与之前提出的技术相比,利用拟议技术获得的灵敏度图质量较低。介绍了使用微型传声器进行的光束轮廓测量。为了减少因缺陷产生的边音,提出了孔径限制掩模,从而提高了测量质量。
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Self-Test of Air-Coupled Probe for Sensitivity Map Production Using Parabolic Reflector
The spatial distribution of a transduction efficiency over the air-coupled probe surface was proposed as a convenient tool for the probe integrity inspection. In this research, a parabolic reflector is used for passive focusing of the acoustic wave on the surface of inspected probe. Therefore, no additional transducer is required for inspection: probe is used for self-inspection. This approach allows to avoid the expensive focused transducer and replaces it by the same-type air-coupled transducers as probe under test. Moreover, the use of the parabolic mirror for focusing is frequency-independent; therefore, such approach allows to inspect a wide range of the probes. Spread spectrum signals were used for excitation to improve the SNR and bandwidth coverage. The results of the experimental measurements of air-coupled transducer sensitivity map with natural and artificial defects implemented have been presented. Comparison with previously proposed techniques is given. It was found that defects presence distorts the focused beam, creating large sidelobes. Therefore, sensitivity map obtained with the proposed technique is lower quality than with previously proposed techniques. Beam profile measurements using a miniature microphone have been presented. Aperture-limiting mask has been proposed to reduce the sidelobes arising due to defects presence and resulting measurements quality has been improved.
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来源期刊
CiteScore
7.70
自引率
16.70%
发文量
583
审稿时长
4.5 months
期刊介绍: IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control includes the theory, technology, materials, and applications relating to: (1) the generation, transmission, and detection of ultrasonic waves and related phenomena; (2) medical ultrasound, including hyperthermia, bioeffects, tissue characterization and imaging; (3) ferroelectric, piezoelectric, and piezomagnetic materials, including crystals, polycrystalline solids, films, polymers, and composites; (4) frequency control, timing and time distribution, including crystal oscillators and other means of classical frequency control, and atomic, molecular and laser frequency control standards. Areas of interest range from fundamental studies to the design and/or applications of devices and systems.
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