Litcius/Paper detail

10 MHz Thin-Film PZT-Based Flexible PMUT Array: Finite Element Design and Characterization

Jeong Nyeon Kim, Tianning Liu, Thomas N. Jackson, Kyusun Choi, Susan Trolier‐McKinstry, Richard L. Tutwiler, Judith A. Todd

2020Sensors16 citationsDOIOpen Access PDF

Abstract

(PZT) thin films were investigated for miniaturized high-frequency ultrasound systems. A recently developed process to remove a PMUT from an underlying silicon (Si) substrate has enabled curved arrays to be readily formed. This research aimed to improve the design of flexible PMUT arrays using PZFlex, a finite element method software package. A 10 MHz PMUT 2D array working in 3-1 mode was designed. A circular unit-cell was structured from the top, with concentric layers of platinum (Pt)/PZT/Pt/titanium (Ti) on a polyimide (PI) substrate. Pulse-echo and spectral response analyses predicted a center frequency of 10 MHz and bandwidth of 87% under water load and air backing. A 2D array, consisting of the 256 (16 × 16) unit-cells, was created and characterized in terms of pulse-echo and spectral responses, surface displacement profiles, crosstalk, and beam profiles. The 2D array showed: decreased bandwidth due to protracted oscillation decay and guided wave effects; mechanical focal length at 2.9 mm; 3.7 mm depth of field for -6 dB; and -55.6 dB crosstalk. Finite element-based virtual prototyping identified figures of merit-center frequency, bandwidth, depth of field, and crosstalk-that could be optimized to design robust, flexible PMUT arrays.

Topics & Concepts

Materials sciencePMUTLead zirconate titanateCenter frequencyPiezoelectricityAcousticsUltrasonic sensorTransducerOptoelectronicsElectronic engineeringFerroelectricityDielectricEngineeringBand-pass filterComposite materialPhysicsUltrasonics and Acoustic Wave PropagationUltrasound Imaging and ElastographyAcoustic Wave Resonator Technologies
10 MHz Thin-Film PZT-Based Flexible PMUT Array: Finite Element Design and Characterization | Litcius