氮化铝兰姆波谐振器的精细频率选择技术

2010 IEEE International Frequency Control Symposium Pub Date : 2010-06-01 DOI:10.1109/FREQ.2010.5556384

Ting-ta Yen, Chih-Ming Lin, Yun-ju Lai, Damien Wittwer, M. Hopcroft, A. Pisano

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引用次数: 14

摘要

本文报道了氮化铝(AlN)兰姆波模式谐振器(LWR)的精细频率选择技术，将阵列中谐振器的相对频率控制在0.1%以内。最有效的技术是通过调整所谓的AlN“悬垂”尺寸，OH，从最外层电极的中心到AlN板的边缘测量，与数字间换能器(IDT)间距无关。实验结果表明，中心频率可线性调节±2.5%，对Q、Rm、C0和k2t等谐振器参数无显著影响。利用该技术对735 MHz滤波器组进行的初步结果表明，每个通道的相对中心频率可以均匀间隔0.05%，而无需后处理修剪。

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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Fine frequency selection techniques for aluminum nitride Lamb wave resonators

This paper reports fine frequency selection techniques for aluminum nitride (AlN) Lamb wave mode resonators (LWR) to control the relative frequency of resonators in an array to 0.1%. The technique that works the best is by adjusting the so-called AlN “overhang” dimension, OH, measured from the center of the outermost electrode to the edge of AlN plate independently of the interdigital transducer (IDT) pitch. Experimental results suggest the center frequency can be linearly adjusted by up to ±2.5% with no significant effect on other resonator parameters including Q, Rm, C0, and k2t. Preliminary results of filter banks at 735 MHz utilizing this technique demonstrate that the relative center frequency of each channel can be evenly spaced by 0.05% without post-process trimming.

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2010 IEEE International Frequency Control Symposium

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