Airborne Piezoelectric Micromachined Ultrasonic Transducers for Long-Range Detection

This paper presents an airborne piezoelectric micro-machined ultrasonic transducers (PMUTs) operated at low frequency (40-50 kHz) for long-range detection, where the acoustic absorption loss in air is relatively low (0.8-1 dB/m). The PMUTs made with single-crystal Lead Zirconate Titanate (PZT) enables a high piezoelectric coefficient (e(31, f) approximate to 16-24 C/m(2)), and a low dielectric constant (epsilon(r) approximate to 308), achieving high PMUT transceiver efficiency. The 2 x 2 PMUT array achieves a very high sound pressure level (SPL) output of 109.4 dB at 26 cm distance. Different from conventional PZT PMUTs, this study utilized single-crystal PZT with a low permittivity to achieve a good acoustic reception, demonstrating the sensitivity of 2 mV/Pa. This work reports the PMUT design, modeling, fabrication, characterization, enabling a long-range detection of 4.8 meters in a pulse-echo experiment, which was conducted by a pair of 2 x 2 PMUT arrays with the matched resonances.

Automated summary

This paper presents a low-frequency airborne piezoelectric micro-machined ultrasonic transducers (PMUTs) for long-range detection, utilizing single-crystal PZT material to achieve high piezoelectric coefficient and low dielectric constant for efficient and high sound pressure level output. Experimental results demonstrate high sensitivity and long-range detection capabilities.