摘要

Micro-electromechanical system (MEMS) technologies were used to develop a thickness-mode piezoelectric micromachined ultrasonic transducer (Tm-pMUT) annular array utilizing a lead magnesium niobate-lead zirconate titanate (PMN-PZT) single crystal prepared by the solid-state single-crystal-growth method. Dicing is a conventional processing method for PMN-PZT single crystals, but MEMS technology can be adopted for the development of Tm-pMUT annular arrays and has various advantages, including fabrication reliability, repeatability, and a curved element shape. An inductively coupled plasma-reactive ion etching process was used to etch a brittle PMN-PZT single crystal selectively. Using this process, eight ring-shaped elements were realized in an area of 1 x 1 cm(2). The resonance frequency and effective electromechanical coupling coefficient of the Tm-pMUT annular array were 2.66 (+/- 0.04) MHz, 3.18 (+/- 0.03) MHz, and 30.05%, respectively, in the air. The maximum positive acoustic pressure in water, measured at a distance of 7.27 mm, was 40 kPa from the Tm-pMUT annular array driven by a 10 V-pp sine wave at 2.66 MHz without beamforming. The proposed Tm-pMUT annular array using a PMN-PZT single crystal has the potential for various applications, such as a fingerprint sensor, and for ultrasonic cell stimulation and low-intensity tissue stimulation.

  • 出版日期2018-7