Plasma-enhanced chemical vapor deposition a-SiOCN:H low-Z thin films for bulk acoustic wave resonators

C. Berger, Michael Schneider, G. Pfusterschmied, Ulrich Schmid
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Abstract

The 5th generation (5G) wireless telecommunication standards with newly defined frequency bands up to 6 GHz are currently established around the world. While outperforming surface acoustic wave (SAW) filters above 1 GHz, bulk acoustic wave (BAW) resonators in multiplexers for radio-frequency front-end (RFFE) modules continuously face higher performance requirements. In contrast to free-standing bulk acoustic resonators (FBARs), solidly mounted resonator (SMR) technology uses an acoustic Bragg mirror, which has already been successfully applied for several GHz applications. In this work, we investigate the potential of amorphous hydrogenated silicon-oxycarbonitride (a-SiOCN:H) thin films synthesized with low-temperature plasma-enhanced chemical vapor deposition (PECVD) as a low acoustic impedance (low-Z) material. Compared to the state-of-the-art where in Bragg mirrors up to now SiO2 is used as standard, the acoustic impedance ratio against the high-Z material tungsten (W) is enhanced for a better device performance. To limit the expected increase in viscous loss when the acoustic impedance is reduced, to a minimum, predominantly the mass density was reduced while keeping the mechanical elasticity high. By doing so, acoustic impedance values as low as 7.1 MRayl were achieved, thereby increasing the impedance ratio of high-Z to low-Z materials from 8:1 up to 14:1.
用于体声波谐振器的等离子体增强化学气相沉积 a-SiOCN:H 低 Z 薄膜
目前,全球正在制定第五代(5G)无线通信标准,新定义的频段最高可达 6 GHz。射频前端(RFFE)模块多路复用器中的体声波(BAW)谐振器在 1 GHz 以上的性能优于表面声波(SAW)滤波器,但仍面临更高的性能要求。与独立式体声波谐振器 (FBAR) 不同,固体安装谐振器 (SMR) 技术使用的是声布拉格镜,该技术已成功应用于多个 GHz 应用领域。在这项工作中,我们研究了用低温等离子体增强化学气相沉积(PECVD)合成的非晶氢化碳氮化硅(a-SiOCN:H)薄膜作为低声阻抗(lowZ)材料的潜力。迄今为止,布拉格反射镜的标准材料是二氧化硅,与之相比,高Z材料钨(W)的声阻抗比得到了提高,从而实现了更好的设备性能。为了将声阻抗降低时预期增加的粘性损耗限制在最低水平,在保持较高机械弹性的同时,主要降低了质量密度。这样,声阻抗值可低至 7.1 MRayl,从而将高 Z 材料与低 Z 材料的阻抗比从 8:1 提高到 14:1。
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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