In this work we investigate the influence of the substrate resistivity and of different buffer layers on the out-of-band insertion losses in AlN SAW devices fabricated on (1 0 0) silicon substrates. The measurements have shown that the out-of-band insertion loss is improved by increasing the substrate resistivity but also by the introduction of an insulating buffer layer material. An out-of-band insertion loss as low as -75 dB has been achieved by the device realized on a silicon nitride buffer layer. This can be explained in terms of inhibition of the diffusion of silicon atoms in the AlN film. Our results show that silicon nitride represents a good solution in terms of low out-of-band insertion loss and cost effectiveness for the realization of nitride-based piezoelectric MEMS devices on silicon substrates.
Ingrosso, I., Petroni, S., Altamura, D., De Vittorio, M., Combi, C., Passaseo, A. (2007). Fabrication of AlN/Si SAW delay lines with very low RF signal noise. MICROELECTRONIC ENGINEERING, 84(5-8), 1320-1324 [10.1016/j.mee.2007.01.100].
Fabrication of AlN/Si SAW delay lines with very low RF signal noise
S. Petroni;
2007
Abstract
In this work we investigate the influence of the substrate resistivity and of different buffer layers on the out-of-band insertion losses in AlN SAW devices fabricated on (1 0 0) silicon substrates. The measurements have shown that the out-of-band insertion loss is improved by increasing the substrate resistivity but also by the introduction of an insulating buffer layer material. An out-of-band insertion loss as low as -75 dB has been achieved by the device realized on a silicon nitride buffer layer. This can be explained in terms of inhibition of the diffusion of silicon atoms in the AlN film. Our results show that silicon nitride represents a good solution in terms of low out-of-band insertion loss and cost effectiveness for the realization of nitride-based piezoelectric MEMS devices on silicon substrates.
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