A Shunt Capacitive Switch based on RF MEMS Technology for 5G application: Design and Investigation

机译：基于RF MEMS技术的分流电容开关5G应用：设计和调查

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摘要

This paper present low insertion loss and high isolation based switching device. A shunt capacitive switch based on Radio Frequency MEMS technology is designed for achieving the above cited objectives. The device is designed for the frequency range from 24.25 GHz to 27.5 GHz (5G frequency band). The designed switch showed below -14 dB return loss, below -0.20 dB insertion loss and up to -41 dB isolation at 26 GHz. Silicon dioxide having a dielectric constant of 4 is used as a dielectric material. Silicon dioxide layer is deposited above the signal line of CPW to form a capacitor. Au is used for realizing the CPW transmission line and bridge structure. Further, the meanders are used in the switching structure in order to tune the design in the desired frequency range.

机译：本文存在低插入损耗和基于高隔离的开关装置。基于射频MEMS技术的分流电容开关设计用于实现上述目的。该器件专为24.25GHz至27.5 GHz（5G频段）的频率范围设计。设计的开关显示出低于-14 dB的回波损耗，低于-0.20 dB插入损耗，高达-41 dB隔离在26 GHz。具有4的介电常数的二氧化硅用作介电材料。二氧化硅层沉积在CPW的信号线上以形成电容器。 AU用于实现CPW传输线和桥接结构。此外，蜿蜒用于切换结构，以便在所需的频率范围内调谐设计。

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《International Conference on Intelligent Technologies》|2021年|1-4|共4页
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Vivek Verma; Mahesh Angira;
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Silicon compounds; Radio frequency; Micromechanical devices; Gold; Power transmission lines; 5G mobile communication; Dielectric materials;

机译：硅化合物;射频;微机械装置;金;输电线路;5G移动通信;介电材料;

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1. Design, simulation and analysis of RF-MEMS shunt capacitive switch for 5G application [J] . Rao K. Srinivasa, Mounika P. S., Pavan P., Microsystem technologies . 2019,第11期

机译：用于5G应用RF-MEMS分流电容开关的设计，仿真和分析
2. Design and characterization of RF MEMS capacitive shunt switch for X, Ku, K and Ka band applications [J] . Sharma Kuldeep, Karmakar Ayan, Prakash Krishna, Microelectronic Engineering . 2020,第Apra期

机译：X，KU，K和KA频带应用RF MEMS电容分流开关的设计与表征
3. Design and simulation of RF MEMS shunt capacitive switch with non-uniform meanders for C-band applications [J] . Microsystem technologies . 2020,第8期

机译：用于C波段应用的非均匀蜿蜒的RF MEMS分流电容开关的设计和仿真
4. Design and Optimization of Cantilever Based RF-MEMS Shunt Switch for 5G Applications [C] . Heba Saleh, Rayan Bajwa, Ibrahim Tekin, International Conference on Design and Technology of Integrated Systems In Nanoscale Era . 2021

机译：基于悬臂的RF-MEMS分流开关的设计与优化5G应用
5. Design, modeling, and characterization of RF MEMS capacitive switches based on flexible printed circuit technology [D] . Ramadoss, Ramesh 2004

机译：基于柔性印刷电路技术的RF MEMS电容开关的设计，建模和表征
6. High Isolation Single-Pole Four-Throw RF MEMS Switch Based on Series-Shunt Configuration [O] . Tejinder Singh, Navjot Khaira -1

机译：基于串联并联配置的高隔离度单刀四掷RF MEMS开关
7. SPDT RF MEMS switch using a single bias voltage and based on dual series and shunt capacitive MEMS switches [O] . Ketterl T., Weller T. 2005

机译：使用单个偏置电压并基于双串联和并联电容MEMS开关的SPDT RF MEMS开关

A Shunt Capacitive Switch based on RF MEMS Technology for 5G application: Design and Investigation

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