• DocumentCode
    2474696
  • Title

    11F-3 Performance of Flexure-Mode pMUT 2D Arrays

  • Author

    Dausch, David E. ; Gilchrist, Kristin H. ; Castellucci, John B. ; Chou, Derrick R.

  • Author_Institution
    RTI Int., Hampton
  • fYear
    2007
  • fDate
    28-31 Oct. 2007
  • Firstpage
    1053
  • Lastpage
    1056
  • Abstract
    We report on the performance characteristics of 2D pMUT arrays. 2D arrays suitable for diagnostic ultrasound imaging containing 81 elements were bulk micromachined in silicon substrates. The devices consisted of suspended PZT thin film membranes formed by deep reactive ion etching. Membrane widths ranged from 50 to 200 mum, with element pitch from 100 to 300 mum. Center frequency, fractional bandwidth, acoustic pressure output and pulse-echo insertion loss were measured in a de-ionized water tank. Pulse-echo images were made using the Duke University T5 Phased Array Scanner. Measured resonance frequencies for the flexure-mode pMUT elements in transmit mode were in the range of 4-13 MHz, and different vibrational modes were observed. Larger membrane widths tended to operate with standard plate-mode vibration, whereas smaller membranes were relatively thickness independent and operated in a transverse resonant mode proportional to membrane length. Acoustic pressure output was 322 Pa/V for a 75 mum pMUT single element measured at 8.6 MHz by a calibrated hydrophone at 22 mm range. This compared to 382 Pa/V for a commercial 2D bulk ceramic array with 350 mum elements operating at 3.5 MHz at the same distance. Pulse-echo insertion loss measured by reflection from an aluminum block at 22 mm range in the water tank was -106 to -124 dB per element for 75 mum elements. It was observed that the pMUTs were more efficient in transmit than receive mode, as transmit insertion loss was -38 dB per element. Receive sensitivity was increased by applying a dc bias to the pMUT elements prior to receiving acoustic reflection. Because flexure-mode pMUTs operate above the coercive voltage in transmit mode, receive bias increased the polarization of the piezoelectric film prior to transducer receive. Receive sensitivity increased by as much as 18 dB with up to 20 V dc bias. Pulse- echo B-mode images were produced with 9x9 element (1.1 mm x 1.1 mm) pMUT arrays operating at 7 MHz, producing a- xial resolution of 1 mm at 10 mm depth in a tissue phantom.
  • Keywords
    biomedical transducers; biomedical ultrasonics; lead compounds; piezoceramics; piezoelectric transducers; sputter etching; ultrasonic transducer arrays; vibrational modes; zirconium compounds; PZT; PZT thin film membranes; acoustic pressure output; deep reactive ion etching; diagnostic ultrasound imaging; distance 22 mm; flexure mode pMUT 2D arrays; frequency 3.5 MHz; frequency 4 MHz to 13 MHz; micromachined ultrasound transducers; pulse echo insertion loss; size 50 mum to 200 mum; vibrational modes; Acoustic measurements; Acoustic pulses; Biomembranes; Frequency measurement; Insertion loss; Loss measurement; Phased arrays; Pressure measurement; Pulse measurements; Ultrasonic imaging;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Ultrasonics Symposium, 2007. IEEE
  • Conference_Location
    New York, NY
  • ISSN
    1051-0117
  • Print_ISBN
    978-1-4244-1384-3
  • Electronic_ISBN
    1051-0117
  • Type

    conf

  • DOI
    10.1109/ULTSYM.2007.266
  • Filename
    4409839