Piezoelectric micro machined ultrasonic transducers (pMUT) are piezoelectric laminated plates operating at flexural modes. The pMUT's fabricated in this work contained a 4 µm thick lead zirconate titanate (PZT) thin film deposited by a sol-gel technique, and exhibiting a permittivity of ε r =1200, and an effective transverse piezoelectric coefficient e 31,f of 12 C/m 2 . A further optimization of the sol-gel process yielded larger grain diameters and consequently improved properties: ε r =1600, e 31,f of 16 C/m 2 . A design and micromachining concpet for easy scaling in frequency has been developed. The electromechanical coupling coefficient (k 2 ) and the quality factor (Q) of rectangular clamped elements (with former PZT process) were measured as k 2 =4.4% and Q=145 in air for a low frequency transducer (@240 kHz). The 16.9 MHz transducer yielded values of Q=25 and k 2 =3% in air. The effect of DC bias voltage on frequency and k 2 has been studied.
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