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We propose a new way to temperature compensate solidly mounted bulk acoustic wave resonators (SMRs). With the proposed process high Q, high electromechanical coupling coefficient, fully temperature compensated resonators have been successfully fabricated with TCF less than 1 ppm/??C and total thermal drift of less than 35 ppm across the temperature range from 0-100??C.
A novel concept for shear mode Bulk Acoustic Resonators (BAR) is presented. It is based on c-axis oriented AlN thin films grown on silicon dioxide thin films, combined with interdigitated electrodes. Such a structure leads to an excitation of mainly shear mode displacements in the AlN film. However, a more pure mode is expected if only every second electrode section would contain active AlN, thus...
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