Multiple Ring Electrode-Based PMUT with Tunable Deflections

Multiple Ring Electrode-Based PMUT with Tunable Deflections

Ultrasonic applications such as non-destructive testing, biomedical imaging or range measurements are currently based on piezoelectric bulk transducers. Yet, these kinds of transducers with their mm to cm dimensions are rather impractical in fields in which both frequencies in the kHz region and sma...

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Bibliographic Details
Main Authors: Jan Helmerich, Manfred Wich, Annika Hofmann, Thomas Schaechtle, Stefan Johann Rupitsch
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Micromachines
Subjects:
adjustable deflection
characterization of piezoelectric materials
multiple electrode design
PMUT
PZT annealing
ultrasonic transducers
Online Access:https://www.mdpi.com/2072-666X/16/6/623
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Summary:Ultrasonic applications such as non-destructive testing, biomedical imaging or range measurements are currently based on piezoelectric bulk transducers. Yet, these kinds of transducers with their mm to cm dimensions are rather impractical in fields in which both frequencies in the kHz region and small-feature sizes are required. This fact mainly relates to the inverse relationship between the resonance frequency constant and the transducers’ dimension, yielding a higher frequency and attenuation with a decreasing size. Piezoelectric micromachined ultrasonic transducers (PMUTs), in comparison, incorporate a small-scale µm design while preserving the operating frequency in the desired kHz range. This contribution presents the detailed manufacturing of such a PMUT with a multiple ring electrode‑based structure to additionally adjust the sound pressure fields. The PMUT will be characterized by its deflection in air along with the characterization of the piezoelectric material lead zirconate titanate (PZT) itself. The measurements showed a maximum polarization of 21.8 µC/cm<sup>2</sup> at 50 kV/cm, the PMUT’s displacement of 30.50 nm/V in air when all electrodes are driven, and an adjustable deflection via different electrode excitations without the need for additional hardware. The ring design also offered the possibility to emit two distinct frequencies simultaneously. These results demonstrate the potential of the designs for small-feature-size applications as they are in high demand for implantable devices, miniaturized ultrasonic-based communication or drug delivery.
ISSN:2072-666X

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