Modelling, design and fabrication of a novel reconfigurable ultra-wide-band impedance matching based on RF MEMS technology

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Modelling, design and fabrication of a novel reconfigurable ultra-wide-band impedance matching based on RF MEMS technology

机译：基于RF MEMS技术的新型可重构超宽带阻抗匹配的建模，设计和制造

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This study proposes an adaptive impedance-matching network with tremendously reduced dimensions and presents its fabrication process. The proposed radio-frequency micro-electromechanical system (RF MEMS) device is based on a coplanar waveguide design and relies on suspended bridges for impedance tuning. The tuning is controlled by a variable applied DC voltage to the bridges. Preliminary tests validate the device's operation mechanism, and simulations were performed on both the mechanical aspects of the device (bridge gap manipulation) and tuning capabilities. This device presents the possibility of operating in a wide band of frequencies, namely [1-6] GHz, and for load impedances in the interval of [30-90] omega for the real part and [-10-30] for the imaginary part. The device's resonant frequency and its bandwidth can be modified easily by changing the bridge gap in the RF MEMS.

机译：这项研究提出了一种尺寸大大减小的自适应阻抗匹配网络，并提出了其制造工艺。所提出的射频微机电系统（RF MEMS）器件基于共面波导设计，并依赖于悬浮桥来进行阻抗调谐。调谐是通过将可变的直流电压施加到电桥来控制的。初步测试验证了该设备的运行机制，并在设备的机械方面（桥间隙操纵）和调节功能进行了仿真。该设备提供了在[1-6] GHz的宽频带内工作的可能性，实部的负载阻抗在[30-90]Ω之间，虚部的负载阻抗在[-10-30]之间部分。通过改变RF MEMS中的电桥间隙，可以轻松修改器件的谐振频率及其带宽。

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《Circuits, Devices & Systems, IET》 |2019年第8期|1299-1304|共6页
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Fac Sci Dept Phys Microwave Elect Res Lab MERLab Tunis Tunisia;

Univ Minho Dept Ind Elect Microelectromech Syst Res Unit Guimaraes Portugal;

Carthage Natl Sch Engn Dept Elect Engn Lab Phys Soft Mat & EM Modelisat Tunis Tunisia;

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coplanar waveguides; microswitches; micromechanical devices; impedance matching; novel reconfigurable ultra-wide-band impedance; RF MEMS technology; adaptive impedance-matching network; tremendously reduced dimensions; fabrication process; radio-frequency microelectromechanical system device; coplanar waveguide design; suspended bridges; impedance tuning; variable applied DC voltage; operation mechanism; mechanical aspects; bridge gap manipulation; tuning capabilities; load impedances; resonant frequency;

机译：共面波导微动开关;微型机械设备;阻抗匹配;新颖的可重构超宽带阻抗;RF MEMS技术;自适应阻抗匹配网络;大大减小尺寸;制造过程;射频微机电系统装置;共面波导设计;吊桥;阻抗调整可变施加的直流电压;运行机制机械方面;桥接间隙操纵;调整能力;负载阻抗;共振频率;

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专利

1. Reconfigurable RF-MEMS-based impedance matching networks for a hybrid RF-MEMS/CMOS class-E power amplifier [J] . Iannacci J. Microsystem technologies . 2019,第12期

机译：基于RF-MEMS的基于RF-MEMS的阻抗网络用于混合式RF-MEMS / CMOS-E Class-E功率放大器
2. Design, Fabrication, and Measurements of an RF-MEMS-Based Self-Similar Reconfigurable Antenna [J] . Dimitrios E. Anagnostou, Guizhen Zheng, Michael T. Chryssomallis, IEEE Transactions on Antennas and Propagation . 2006,第2期

机译：基于RF-MEMS的自相似可重构天线的设计，制造和测量
3. Distributed MEMS Tunable Impedance-Matching Network Based on Suspended Slow-Wave Structure Fabricated in a Standard CMOS Technology [J] . Fouladi S., Domingue F., Zahirovic N., Microwave Theory and Techniques, IEEE Transactions on . 2010,第4期

机译：基于标准CMOS技术制造的悬浮慢波结构的分布式MEMS可调阻抗匹配网络
4. A reconfigurable impedance matching network entirely manufactured in RF-MEMS technology [C] . J. Iannacci, D. Masotti, T. Kuenzig, Smart sensors, actuators, and MEMS V . 2011

机译：完全采用RF-MEMS技术制造的可重构阻抗匹配网络
5. Design, fabrication and characterization of a RF MEMS based reconfigurable antenna. [D] . Febo, Rey Alberto. 2010

机译：基于RF MEMS的可重构天线的设计，制造和表征。
6. Design and Fabrication of a Miniaturized GMI Magnetic Sensor Based on Amorphous Wire by MEMS Technology [O] . Jiawen Chen, Jianhua Li, Yiyuan Li, 2018

机译：基于MEMS技术的基于非晶线的微型GMI磁传感器的设计与制作
7. Design, fabrication and measurements of an RF-MEMS-based self-similar reconfigurable antenna [O] . Dimitrios E. Anagnostou, Guizhen Zheng, Michael T. Chryssomallis, 2015

机译：基于RF-mEms的自相似可重构天线的设计，制造和测量
8. SummitView 1.0: A Code to Automatically Generate 3D Solid Models of Surface Micro-Machining Based MEMS Designs [R] . McBride, C. L. 2006

机译：summitView 1.0：自动生成基于表面微加工的mEms设计的3D实体模型的代码

Modelling, design and fabrication of a novel reconfigurable ultra-wide-band impedance matching based on RF MEMS technology

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