In this paper, a micro level electrostatically actuated cantilever and metal contact based series RF MEMS Switch is designed and analyzed using Finite Element Method Tool. The designed switch is simulated and the performance is verified over the frequency range 0.8–20 GHz. In investigation, it is noticed that the performance of the RF MEMS Switch is decided by the actuation voltage, insertion losses, isolation losses and reliability. The switch designed in this paper achieved a constant insertion losses of −0.08 to −0.14 dB, isolation losses of −58 to −20 dB. This work also concentrated on the cantilever actuation voltage, and it is reduced to 3.55 V by using less weight polymer material like Poly Tetra Fluoro Ethylene (PTFE). The series me...
Copyright @ 2010 Springer-VerlagThe analysis, design and simulation of a novel easy to control all-m...
International audienceThis paper presents the design and measurements of a miniature RF MEMS (Micro-...
Radio frequency micro electro mechanical systems (RF MEMS) have enabled a new generation of devices ...
International audienceThis paper presents a new way to design MEMS (microelectromechanical system) m...
This paper describes the design and simulation of a new low voltage electrostatically actuated RF ME...
This letter presents a novel cantilever and electrode biasing design of a metal-contact radio freque...
This paper presents a novel design and analysis of capacitive radio frequency (RF) micro-electromech...
A MEMS switch for radio frequency applications has been designed, fabricated, and characterized. The...
The micromechanical switch is without doubt the paradigm RF MEMS device. However, a major drawback i...
Abstract − A new type of RF MEMS switch for low voltage actuation, high broadband application and hi...
MEMS (Micro-Electro-Mechanical Structures) switches are devices used to achieve a short or open cir...
A metal contact RF MEMS switch was fabricated based on the micro electroplating technology. With the...
This paper presents the design optimization of a RF MEMS direct contact cantilever switch for minimu...
Abstract—This paper presents design of an electrostatic wide band shunt capacitive coupling RF MEMS ...
RF-MEMS switch is a kind of electromechanical structure that is used to short or open a RF to millim...
Copyright @ 2010 Springer-VerlagThe analysis, design and simulation of a novel easy to control all-m...
International audienceThis paper presents the design and measurements of a miniature RF MEMS (Micro-...
Radio frequency micro electro mechanical systems (RF MEMS) have enabled a new generation of devices ...
International audienceThis paper presents a new way to design MEMS (microelectromechanical system) m...
This paper describes the design and simulation of a new low voltage electrostatically actuated RF ME...
This letter presents a novel cantilever and electrode biasing design of a metal-contact radio freque...
This paper presents a novel design and analysis of capacitive radio frequency (RF) micro-electromech...
A MEMS switch for radio frequency applications has been designed, fabricated, and characterized. The...
The micromechanical switch is without doubt the paradigm RF MEMS device. However, a major drawback i...
Abstract − A new type of RF MEMS switch for low voltage actuation, high broadband application and hi...
MEMS (Micro-Electro-Mechanical Structures) switches are devices used to achieve a short or open cir...
A metal contact RF MEMS switch was fabricated based on the micro electroplating technology. With the...
This paper presents the design optimization of a RF MEMS direct contact cantilever switch for minimu...
Abstract—This paper presents design of an electrostatic wide band shunt capacitive coupling RF MEMS ...
RF-MEMS switch is a kind of electromechanical structure that is used to short or open a RF to millim...
Copyright @ 2010 Springer-VerlagThe analysis, design and simulation of a novel easy to control all-m...
International audienceThis paper presents the design and measurements of a miniature RF MEMS (Micro-...
Radio frequency micro electro mechanical systems (RF MEMS) have enabled a new generation of devices ...