International audienceThis paper outlines the capabilities of RF MEMS tunable microinductors designed using mechanical displacements that change the magnetic coupling coefficient between circuits. The design and fabrication of a first and an optimized second tunable microinductor prototype are presented. We report a 50% inductance variation from 1.5 to 5 GHz measured on the first test wafers. Moreover, these tunable inductors, which have continuous variations, can be integrated with tunable capacitors into reconfigurable RF systems suitable for future wideband RF communications. The design of basic functions, such as a simple phase shifter cell or a tunable impedance, is lastly described
RF MEMS capacitive switches and tunable capacitors have been realized in an industrialized thin-film...
A tunable capacitor based on MEMS technology is presented in this paper. The proposed structure cons...
International audienceIn this work, RF MEMS continuous reversible variable inductor has been fabrica...
A review of some of the work in tunable RF MEMS elements is presented. Discussed are a high-tuning r...
Micromachining and RF Micro-Electro-Mechanical Systems (RF MEMS) have been identified as two of the ...
The present invention provides a monolithic inductor developed using radio frequency mic...
With fast development of mobile communication technology, the increasingly complex communicating env...
Abstract—This paper reports on a microfabrication technology for implementing high-performance passi...
The focus of this presentation is in reconfigurable matching networks and impedance tuners. Reconfig...
International audienceTunable micro-inductors can be designed controlling magnetic coupling coeffici...
Radio-frequency microelectromechanical systems (RF MEMS) are highly miniaturized devices intended t...
()ABSTRACT: An RF MEMs microelectromechanical system variable capacitor has been demonstrated with a...
As the communication technology evolves day by day, the demands for low cost, low power, multifuncti...
This thesis presents tunable RF front-end circuits for advanced communication systems by using packa...
We propose the design of a reconfigurable impedance matching network for the lower RF frequency band...
RF MEMS capacitive switches and tunable capacitors have been realized in an industrialized thin-film...
A tunable capacitor based on MEMS technology is presented in this paper. The proposed structure cons...
International audienceIn this work, RF MEMS continuous reversible variable inductor has been fabrica...
A review of some of the work in tunable RF MEMS elements is presented. Discussed are a high-tuning r...
Micromachining and RF Micro-Electro-Mechanical Systems (RF MEMS) have been identified as two of the ...
The present invention provides a monolithic inductor developed using radio frequency mic...
With fast development of mobile communication technology, the increasingly complex communicating env...
Abstract—This paper reports on a microfabrication technology for implementing high-performance passi...
The focus of this presentation is in reconfigurable matching networks and impedance tuners. Reconfig...
International audienceTunable micro-inductors can be designed controlling magnetic coupling coeffici...
Radio-frequency microelectromechanical systems (RF MEMS) are highly miniaturized devices intended t...
()ABSTRACT: An RF MEMs microelectromechanical system variable capacitor has been demonstrated with a...
As the communication technology evolves day by day, the demands for low cost, low power, multifuncti...
This thesis presents tunable RF front-end circuits for advanced communication systems by using packa...
We propose the design of a reconfigurable impedance matching network for the lower RF frequency band...
RF MEMS capacitive switches and tunable capacitors have been realized in an industrialized thin-film...
A tunable capacitor based on MEMS technology is presented in this paper. The proposed structure cons...
International audienceIn this work, RF MEMS continuous reversible variable inductor has been fabrica...