The effect of contour concentricity on the acceleration sensitivity of quartz crystal resonators

P. Morley
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引用次数: 0

Abstract

Optimization of the acceleration sensitivity of quartz crystal resonators has been a challenging problem for resonator designers for decades. The structural symmetry of the resonator and mount combination has been shown in past work, both theoretical and practical, to have a strong influence on acceleration sensitivity, and specialized structures have been developed [1], [2], [3] that have greatly improved performance. However, with applications such as airborne radar systems, there is a persistent demand for further improvement. The design of many of the practical high-stability resonator products that have a need for good acceleration sensitivity is also constrained by other attributes, such as high quality factor, and these constraints typically result in a low-frequency overtone device with a fully contoured resonator element design. In this paper, the effect of the concentricity of the contour shape on the quartz disk in contoured resonators is considered, and results are presented that demonstrate a strong correlation between the contour offset from the blank center and the acceleration sensitivity of the resonator. Methods are also described for measurement of the contour position relative to the perimeter of the disk.
轮廓同心度对石英晶体谐振器加速度灵敏度的影响
几十年来,优化石英晶体谐振器的加速度灵敏度一直是谐振器设计人员面临的一个具有挑战性的问题。在过去的理论和实践工作中,谐振器和安装架组合的结构对称性已经被证明对加速度灵敏度有很强的影响,并且已经开发了专门的结构[1],[2],[3],这些结构大大提高了性能。然而,随着诸如机载雷达系统的应用,有进一步改进的持续需求。许多需要良好加速灵敏度的实用高稳定性谐振器产品的设计也受到其他属性的限制,例如高质量因子,这些限制通常导致低频泛音器件具有完全轮廓的谐振器元件设计。本文研究了等高线谐振器中等高线形状的同心度对石英盘的影响,并给出了等高线与空白中心的偏移量与谐振器的加速度灵敏度之间有很强的相关性的结果。还描述了用于测量相对于圆盘周长的轮廓位置的方法。
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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