High-$Q$ Gallium Nitride Thickness-Shear Baw Resonators with Reduced Temperature Sensitivty

2021 21st International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers) Pub Date : 2021-06-20 DOI:10.1109/Transducers50396.2021.9495432

M. Ghatge, M. Rais-Zadeh, R. Tabrizian

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Abstract

This paper reports on a high quality factor ($Q$) gallium nitride (GaN) thickness-shear (TS) bulk acoustic wave resonator with a reduced temperature coefficient of frequency (TCF). $4.2\mu \mathrm{m}$-thick AlGaN/GaN-on-Si substrate is used to create high-Q resonators operating in TS mode, as well as high-order width-extensional modes (WEn). The temperature characteristic of TS and WE resonators are measured and compared highlighting the considerable reduction in TCF of the shear mode. GaN resonator prototypes are presented operating in TS mode at 573MHz, with a $Q$ of 2700, and in WE3, WE5, and WE7 modes at 239MHz, 407MHz, and 564MHz, with $Q\mathrm{s}$ of 8700, 7200 and 2300, respectively. A TCF of-17.9 ppm/°C is measured for the TS mode, which is significantly lower compared to WE3,5,7 modes with measured TCF of $-24 \text{ppm}/^{\circ}\mathrm{C}\pm 0.3\ \text{ppm}/^{\circ}\mathrm{C}$. The large (> 6 ppm/°C) improvement in temperature sensitivity, along with the promise of monolithic integration with HEMT electronics highlights the potential of TS GaN resonators for realization of frequency stable and radiation hard integrated oscillators.

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降低温度灵敏度的高Q氮化镓厚度-剪切波谐振器

本文报道了一种具有降低频率温度系数(TCF)的高质量因数(Q)氮化镓(GaN)厚度-剪切(TS)体声波谐振器。$4.2\mu \ mathm {m}$厚的AlGaN/GaN-on-Si衬底用于创建工作在TS模式下的高q谐振器，以及高阶宽度扩展模式(WEn)。对TS谐振器和WE谐振器的温度特性进行了测量和比较，突出了剪切模式下TCF的显著降低。GaN谐振器原型工作在573MHz的TS模式下，Q值为2700;工作在239MHz、407MHz和564MHz的WE3、WE5和WE7模式下，Q值分别为8700、7200和2300。TS模式的TCF值为17.9 ppm/°C，显著低于WE3、5,7模式的TCF值$-24 \text{ppm}/^{\circ}\ mathm {C}\pm 0.3\ text{ppm}/^{\circ}\ mathm {C}$。温度灵敏度的大幅提高(bbb6 ppm/°C)，以及与HEMT电子器件的单片集成的承诺，突出了TS GaN谐振器实现频率稳定和辐射硬集成振荡器的潜力。

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来源期刊

2021 21st International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers)

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