波在BAW薄膜器件中的传播研究进展与展望

J. Kaitila
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引用次数: 45

摘要

在过去的几年中,体声波(BAW)滤波器已成为表面声波(SAW)器件的可行替代方案。它们在滤波特性、功率处理、ESD稳健性和尺寸方面具有卓越的性能。第一个促成因素是薄膜压电层沉积技术的迅速发展。如今,许多设备制造商都提供了用于沉积具有优异压电性能的高质量层的系统。随着制造问题的发展,在理解BAW谐振器的基本器件物理方面也有了重要的发展。与任何用于构建滤波器的电抗元件一样,在设计BAW谐振器时,有三个主要问题:足够的有效耦合系数,高q值和无杂散模式的工作。这些特性使滤波器具有足够的带宽、低插入损耗、陡峭的过渡带和无纹波特性。在这篇文章中,我们回顾了导致最先进的BAW谐振器的发展。
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3C-1 Review of Wave Propagation in BAW Thin Film Devices - Progress and Prospects
During the last few years the bulk acoustic wave (BAW) filters have emerged as a viable alternative to surface acoustic wave (SAW) devices. They offer superior performance regarding filtering characteristics, power handling, ESD robustness and size. The first enabling ingredient has been the rapid development in deposition techniques for the thin film piezoelectric layer. Today multiple equipment manufacturers are offering systems for depositing high quality layers with excellent piezoelectric properties. Along with the development in manufacturing issues there has also been important development in understanding the basic device physics of BAW resonators. Like any reactance elements for constructing filters there are three major concerns when designing BAW resonators: sufficient effective coupling coefficient, high Q-values and operation free of spurious modes. These properties enable the fabrication of filters with sufficient band width, low insertion loss, steep transition bands and ripple free characteristics. In this paper developments leading to state-of-the-art BAW resonators are reviewed.
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