Piezoelectric bimorph MEMS speakers

One of the key requirements for MEMS speakers is to increase the sound pressure level (SPL) while keeping the size as small as possible. In this paper we present a MEMS speaker based on piezoelectric bimorph cantilevers that produces a higher SPL than conventional unimorph cantilever speakers. The active diaphragm size is 1.4 x 1.4 mm(2). The bimorph cantilevers are connected in parallel to make full use of the actuation voltage. At 1 kHz, the measured SPL reached 73 dB and the peak SPL reached 102 dB at the resonance frequency of 10 kHz in a 711 ear simulator under a driving voltage of 10 V-rms. The total harmonic distortion of the MEMS speaker was less than 3% in the range from 100 Hz to 20 kHz. Although the absolute SPL was not the highest, this work provides a better SPL for all piezoelectric MEMS speakers. (C) 2022 Author(s).

Automated summary

This paper presents a MEMS speaker based on piezoelectric bimorph cantilevers that achieves a higher sound pressure level (SPL) while keeping the size as small as possible. By connecting the bimorph cantilevers in parallel, the actuation voltage is fully utilized. The research also demonstrates low harmonic distortion of the MEMS speaker within a certain frequency range.