Resonator self-temperature-sensing using a dual-harmonic-mode crystal oscillator

Proceedings of the 43rd Annual Symposium on Frequency Control Pub Date : 1989-05-31 DOI:10.1109/FREQ.1989.68851
S.S. Schodowski
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引用次数: 94

Abstract

A thermometry method using resonator self-temperature-sensing is described. The method uses a harmonically related pair of c-modes of an SC-cut that is simultaneously excited in a dual-mode oscillator, and then combined to produce a thermometric frequency having a monotonic and nearly linear dependence on temperature. It avoids the activity dip problems of the b-mode and overcomes limitations of using external sensors that are subject to thermal lab and temperature gradients. This method provides a means of measuring resonator temperature with high accuracy, limited only by the stability difference between the c-mode frequencies. The concept for this dual c-mode thermometry method is presented and its implementation in a microcomputer-compensated crystal oscillator discussed.<>
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使用双谐波模式晶体振荡器的谐振器自温度传感
介绍了一种利用谐振腔自感温的测温方法。该方法使用SC-cut的谐波相关c模对,在双模振荡器中同时激发,然后组合产生具有单调且几乎线性依赖于温度的测温频率。它避免了b模式的活动下降问题,克服了使用受热实验室和温度梯度影响的外部传感器的限制。该方法提供了一种测量谐振腔温度的高精度方法,仅受c模频率之间稳定性差的限制。提出了这种双c模测温方法的概念,并讨论了其在微机补偿晶体振荡器中的实现。
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Proceedings of the 43rd Annual Symposium on Frequency Control
Proceedings of the 43rd Annual Symposium on Frequency Control
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