基于ALN/SI衬底的Saw器件IDT结构优化设计

2020 China Semiconductor Technology International Conference (CSTIC) Pub Date : 2020-06-26 DOI:10.1109/CSTIC49141.2020.9282591

Kaixuan Li, F. Wang, Shuo Yan, Meng Deng, Huanhuan Di, Wei Li, Kailiang Zhang

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引用次数: 1

摘要

在硅(Si)衬底上生长了具有良好压电性能的氮化铝(A1N)薄膜作为压电层，利用矩形函数、汉宁函数和Kaiser函数研究了具有不同数字间换能器(IDT)结构的表面声波(SAW)器件的性能。利用MATLAB和e-LINE plus软件快速、准确地生成布局文件。在室温下对指宽为300nm的器件进行了测试，结果表明，采用Kaiser函数结构的器件表现出较好的谐振波形，中心频率可达4.94GHz，副瓣抑制度明显提高至43.53dB，插入损耗为-5.87dB。这项工作对高性能表面声波器件的设计和研究具有积极的意义。

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IDT Structure Optimization Design based on ALN/SI Substrate for Saw Devices

In this work, aluminum nitride (A1N) film with good piezoelectric properties was grown on the silicon (Si) substrate as piezoelectric layer, and the properties of surface acoustic wave (SAW) devices with different interdigital transducer (IDT) structures were researched by using Rectangle function, Hanning function and Kaiser function. MATLAB and e-LINE plus software were used to generate layout files quickly and accurately. Devices with 300nm finger width were tested at room temperature and the results indicated that devices with Kaiser function structure show better resonant waveforms, the center frequency was up to 4.94GHz, the inhibition degree of sidelobe increased obviously to 43.53dB, and insertion loss was -5.87dB. This work play an active role in the design and research of high performance surface acoustic wave devices.

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2020 China Semiconductor Technology International Conference (CSTIC)

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