Add to ORKGIn this paper, a robust method to analyse a simple model of a RF (Radio Frequency) MEMS (Micro Electro-Mechanical Systems) capacitive switch is depicted. The method is based on multi-physics phenomenons and interdependencies between different physics domains. A component, which enables to link variety of the physics domains is an electrical equivalent circuit. Such equivalent circuit has been created in LTSpice software, which is a freeware circuits simulator. This electrical equivalent schematic enables to run static, frequency domain, transient analysis. The presented method enables simultaneous simulations in an electrical, mechanical and electro-mechanical domain. Obtained results were verified by the comparison with the results of a co...
This paper deals with a general analytic approach for the design of RF microelectromechanical syste...
Radio-frequency Microelectromechanical Systems (RFMEMs) are collections of micro-scaled components s...
Microelectromechanical Systems (MEMS) are devices made up of several electrical and mechanical compo...
A simulation model for static analysis of a doubly supported capacitive MEMS RF switch has been con-...
The design of RF MEMS switches involves several disciplines: mechanics, materials science and electr...
This paper is focused on the creation of an efficient electromagnetic model of MEMS switches which o...
ABSTRACT By controlling the degrees of freedom for the components in the system and using a PWL solv...
this paper proposes different strategies for the electrical modelling of capacitive and resistive RF...
We present two problem-adapted, tailored modeling approaches for RF-MEMS switches, which are applica...
this paper proposes different strategies for the electrical modelling of capacitive and resistive R...
this paper proposes different strategies for the electrical modelling of capacitive and resistive RF...
This tutorial paper presents an empirical model of a capacitive radio frequency microelectromechani...
Abstract—A compact model is proposed to facilitate the design and simulation of the control waveform...
ISBN 978-0-7695-3978-2International audienceIn order to envision fault-tolerant SiPs and SoCs contai...
This paper deals with a general analytic approach for the design of RF microelectromechanical syste...
This paper deals with a general analytic approach for the design of RF microelectromechanical syste...
Radio-frequency Microelectromechanical Systems (RFMEMs) are collections of micro-scaled components s...
Microelectromechanical Systems (MEMS) are devices made up of several electrical and mechanical compo...
A simulation model for static analysis of a doubly supported capacitive MEMS RF switch has been con-...
The design of RF MEMS switches involves several disciplines: mechanics, materials science and electr...
This paper is focused on the creation of an efficient electromagnetic model of MEMS switches which o...
ABSTRACT By controlling the degrees of freedom for the components in the system and using a PWL solv...
this paper proposes different strategies for the electrical modelling of capacitive and resistive RF...
We present two problem-adapted, tailored modeling approaches for RF-MEMS switches, which are applica...
this paper proposes different strategies for the electrical modelling of capacitive and resistive R...
this paper proposes different strategies for the electrical modelling of capacitive and resistive RF...
This tutorial paper presents an empirical model of a capacitive radio frequency microelectromechani...
Abstract—A compact model is proposed to facilitate the design and simulation of the control waveform...
ISBN 978-0-7695-3978-2International audienceIn order to envision fault-tolerant SiPs and SoCs contai...
This paper deals with a general analytic approach for the design of RF microelectromechanical syste...
This paper deals with a general analytic approach for the design of RF microelectromechanical syste...
Radio-frequency Microelectromechanical Systems (RFMEMs) are collections of micro-scaled components s...
Microelectromechanical Systems (MEMS) are devices made up of several electrical and mechanical compo...