Wireless SAW-based temperature sensor
A 440MHz wireless SAW-based temperature sensor has been proposed on a 41o YX LiNbO3 piezoelectric substrate. Reflective delay line composed of an interdigital transducer (IDT) and several reflectors was used as the sensor element. A high frequency of 440MHz allowed a compact antenna to be designe...
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| 格式: | Final Year Project |
| 語言: | English |
| 出版: |
2010
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| 主題: | |
| 在線閱讀: | http://hdl.handle.net/10356/40361 |
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| 總結: | A 440MHz wireless SAW-based temperature sensor has been proposed on a
41o YX LiNbO3 piezoelectric substrate. Reflective delay line composed of an
interdigital transducer (IDT) and several reflectors was used as the sensor element. A
high frequency of 440MHz allowed a compact antenna to be designed and
integrated unto one device.
Interdigital transducers (IDT) patterns and different reflector configurations
were studied and proposed in this project. Three types of IDT, mainly basic single
electrode IDT, split finger electrode IDT and floating electrode unidirectional IDT
were chosen. The shorted circuit grating reflector was chosen for the reflector
configuration.
Three objectives were to be met based on different reflective delay line
designs; verification of accuracy and precision increase with increasing number of
reflectors, maximize utilization of energy from a bidirectional IDT and lastly,
overcome effect of multiple reflections with a dual track SAW device.
In total, eight different SAW device designs were proposed and each design
was repeated five times when designing a photolithographic mask to ensure fair
comparison and conclusion upon characterization.
Various different antenna configurations were considered as well. As the
antenna would be integrated unto a single device, it is important to consider an
antenna that does not require grounding. An antenna electrode pad
photolithographic was also fabricated.
Fabrication of the SAW device was carried in a two step process with the first
being patterning of the IDT using image reversal, lift-off processing, followed by
patterning of the antenna electrode pad with a similar lift-off process. However, the
photoresist development was poor and positive lithography process and selective
etching was considered next. |
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