Abstract

A high-resolution and high-linearity surface acoustic wave (SAW) temperature sensor, consisting of a SAW resonator device fabricated on novel X-cut LiNbO3/SiO2/Si piezoelectric substrate and a resonance frequency readout chip using standard 180 nm CMOS technology, is presented for the first time. High temperature performance substrate LiNbO3/SiO2/Si is prepared mainly by ion implantation and wafer bonding at first. RF SAW device with resonance frequency near 900 MHz is designed and fabricated on the substrate. Traditional probe method using network analyzer and the readout chip method are both implemented to characterize the fabricated SAW device. Further measurement of temperature using resonance frequency shift of SAW device demonstrates the feasibility of the combined system as a portable SAW temperature sensor. The obtained frequency-temperature relation of the fabricated device is almost linear. The frequency resolution of the readout chip is 733 Hz and the corresponding temperature accuracy is 0.016 ° C. Resolution of the sensor in this work is superior to most of the commercial temperature measurement sensors. Theory analysis and finite element simulation are also presented to prove the mechanism and validity of using SAW device for temperature detection applications. We conclude that the high-linearity frequency-temperature relation is achieved by the offset between high-order coefficients of LiNbO3 and SiO2 with opposite signs. This work offers the possibility of temperature measuring in ultra-high precision sensing and control applications.

Highlights

  • Surface acoustic wave (SAW) devices have been researched and utilized since several decades ago

  • A frequency detection chip using standard 180 nm CMOS process is proposed for the frequency readout of SAW device

  • From the result we can infer that the linearity and stability of temperature performance of SAW device based on LiNbO3/SiO2/Si structure are much optimized

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Summary

Introduction

Surface acoustic wave (SAW) devices have been researched and utilized since several decades ago. High-resolution, high-linearity temperature sensor using surface acoustic wave device based on LiNbO3/SiO2/Si substrate SAW device with fr near 900 MHz is designed and fabricated on LiNbO3/SiO2/Si structure, which has a much improved temperature performance than traditional LiNbO3 substrate.

Results
Conclusion

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