Performance optimization of temperature compensated surface acoustic wave biosensors

2013 Seventh International Conference on Sensing Technology (ICST) Pub Date : 2013-12-01 DOI:10.1109/ICSENST.2013.6727617

Shuangming Li, Yan Su, Yin Wan, Zheng Tang

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Abstract

Temperature has great influences on the surface acoustic wave (SAW) biosensors. Different substrates were tested and the methods for improving the temperature performance of the SAW biosensors were discussed here. The effects of temperature on the SAW sensors mainly result from the temperature coefficient of the SAW device and the oscillating circuit. To eliminate the impact of environment, a twin delay lines SAW biosensor operating at 198 MHz, with a sensor channel and a reference channel, was fabricated on 36°Y-X LiTaO3 piezoelectric crystals. The signals of the two channels were multiplied by a mixer to compensate the influences of temperature. Since the temperature may affect the quiescent point of amplifier, the open loop phase would change, resulting in a frequency shift of the SAW oscillator. Therefore, a simple and effective circuit structure with a comparator limiting the oscillation amplitude was applied to the design of the SAW oscillator. At last, the temperature performance of our design was tested. Our design was demonstrated having a great performance with a temperature coefficient about 2 ppm/°C.

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温度补偿表面声波生物传感器的性能优化

温度对表面声波(SAW)生物传感器有很大的影响。对不同的衬底进行了测试，并讨论了提高SAW生物传感器温度性能的方法。温度对声表面波传感器的影响主要来自于声表面波器件和振荡电路的温度系数。为了消除环境的影响，在36°Y-X LiTaO3压电晶体上制作了工作频率为198 MHz、具有传感器通道和参考通道的双延迟线SAW生物传感器。两个通道的信号通过混频器相乘来补偿温度的影响。由于温度会影响放大器的静息点，开环相位会发生变化，导致声表面波振荡器的频移。因此，采用一种简单有效的电路结构和一个限制振荡幅度的比较器来设计声表面波振荡器。最后，对设计的温度性能进行了测试。我们的设计被证明具有良好的性能，温度系数约为2 ppm/°C。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 Seventh International Conference on Sensing Technology (ICST)

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