Advanced lateral structures of BAW resonator for spurious mode suppression

2012 42nd European Microwave Conference Pub Date : 2012-10-01 DOI:10.23919/EUMC.2012.6459305

Ho-Soo Park, I. Song, Jea-Shik Shin, Moon-Chul Lee, Sang Uk Son, Chul-Soo Kim, Duck-Hwan Kim, Jing Cui

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引用次数: 7

Abstract

To suppress spurious mode of the BAW (Bulk Acoustic Wave) resonator, advanced lateral structures are proposed. Three different techniques of apodization, air-edge reflector and border frame are integrated. Firstly, apodization is the method to design a proper shape of resonator which avoids parallel edges. By doing so, spurious mode is significantly improved at main resonances. Secondly, air-edge reflector is the method which creates lateral air interface to suppress the acoustic wave leakage. The Qa (Q-factor at anti-resonance frequency) and kt2 are improved from 420 to 640 and 6.0% to 6.7%, respectively. Thirdly, border frame is a specific thickened frame in which lateral acoustic wave cannot propagate. The Qr (Q-factor at resonance frequency) and Qa are increased from 850 to 1040 and 550 to 1670, respectively. After three techniques are integrated, the maximum value of Qr and Qa are achieved 1130 and 1920, respectively. Three practical techniques considerably improved the Q-factor and kt2 of BAW resonator which are essential parameters for low loss and wide band of RF filter configuration.

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用于抑制杂散模式的BAW谐振器的先进横向结构

为了抑制体声波谐振器的杂散模式，提出了先进的横向结构。结合了三种不同的技术:顶射、空气边缘反射和边界框架。首先，apodiization是一种设计合适谐振器形状的方法，避免了平行边缘。通过这样做，主共振的杂散模式得到了显著改善。其次，空气边反射器是通过制造侧向空气界面来抑制声波泄漏的方法。抗共振频率处的q因子(Qa)和kt2分别从420提高到640和6.0%提高到6.7%。边界框架是一种特定的加厚框架，在这种框架内横向声波不能传播。共振频率处的q因子Qr和Qa分别从850增加到1040和550增加到1670。三种技术融合后，Qr和Qa的最大值分别为1130和1920。三种实用技术大大提高了BAW谐振器的q因子和kt2，这是低损耗和宽带射频滤波器配置的重要参数。

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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2012 42nd European Microwave Conference

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