一种新型的低电压电容式射频MEMS开关设计

Tejinder Singh, Navjot K. Khaira, J. Sengar
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引用次数: 11

摘要

本文提出了一种新型的电容式射频微机电系统开关,该开关在石英衬底上,膜周围有刚性肋。由于静电驱动需要高电压;开关膜的屈曲效应和粘滞问题是射频MEMS开关的主要问题,由于膜周围肋的刚度,采用这种设计方法可以减少这种问题。由于膜上的槽和孔进一步有助于实现高开关速度,因此实现了较低的梁质量和压缩膜阻尼的减少。提供两个致动电极以增加致动面积,从而有助于实现较低的致动电压。该开关被优化为在k波段工作,在21 GHz时具有-41 dB的高隔离和-0.034 dB的低插入损耗,只需9.7 V的低驱动电压即可运行。
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A novel capacitive RF MEMS switch design for low voltage applications
This paper presents a novel capacitive radio frequency Microelectromechanical systems switch on quartz substrate having stiff ribs around the membrane. Due to the need of high voltage for electrostatic actuation; buckling effect in switch membrane and stiction problem become the primary concern with RF MEMS switches and can be reduced with this proposed design approach due to the stiffness of ribs around the membrane. Lower mass of the beam and reduction in squeeze film damping is achieved due to the slots and holes in membrane that further aid in attaining high switching speeds. Two actuation electrodes are provided to increase the actuation area thus helps n achieving lower actuation voltages. This proposed switch is optimized to operate in k-band that results in high isolation of -41 dB and low insertion loss of -0.034 dB at 21 GHz with need of low actuation voltage of 9.7 V for operation of the switch.
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