In this work, electrostatic stability of microplate actuators is investigated. In particular, the possibility to improve device stability by adopting charge control is discussed. The parallel plate actuator is first introduced as case study. Then, a one degree-of freedom model is obtained for microplate electromechanics. The parasitic capacitance arising from the non-uniform device deformation is evaluated. This practically leads to a reduced capacitance feedback with respect to parallel plate systems. Consequently, a limited stabilizing effect of charge drive can be obtained. The analysis of microplate behaviour is completed by the evaluation of adhesion (stiction) when eventually pull-in is reached
In the last decades, Micro-Electro-Mechanical Systems (MEMS) have drawn immense attention due to the...
This work deals with the mechanical response of circular microplates undergoing electrostatic actuat...
this paper uses a similar commercial surface micromachining process [3] to create large parallel pla...
In this work, electrostatic stability of microplate actuators is investigated. In particular, the p...
Electrostatic micro-electro-mechanical system (MEMS) is a special branch with a wide range of applic...
Micro Electro Mechanical Systems refer to formation of electro-mechanical systems in the scales of m...
Abstract – The practical design issues of an electrostatic micromechanical actuator that can travel ...
In this paper the mechanical response of circular micro-plates undergoing electrostatic actuation is...
Fringing field has to be taken into account in the formulation of electrostatic parallel-plate actua...
Abstract—Electrostatic parallel-plate actuators are a common way of actuating microelectromechanical...
Abstract—This paper addresses the control of electrostatic parallel-plate microactuators in the pres...
The electrostatic instability (pull-in) of a flat electrode in a parallel plate capacitor has been s...
Abstract — Electrostatic parallel-plate actuators are a common way of actuating MEMS devices, both s...
13th IASTED International Conference on Control and Applications, CA 2011; Vancouver, BC; Canada; 1 ...
This paper provides new investigation for the static and dynamic behavior of a MEMS parallel plate c...
In the last decades, Micro-Electro-Mechanical Systems (MEMS) have drawn immense attention due to the...
This work deals with the mechanical response of circular microplates undergoing electrostatic actuat...
this paper uses a similar commercial surface micromachining process [3] to create large parallel pla...
In this work, electrostatic stability of microplate actuators is investigated. In particular, the p...
Electrostatic micro-electro-mechanical system (MEMS) is a special branch with a wide range of applic...
Micro Electro Mechanical Systems refer to formation of electro-mechanical systems in the scales of m...
Abstract – The practical design issues of an electrostatic micromechanical actuator that can travel ...
In this paper the mechanical response of circular micro-plates undergoing electrostatic actuation is...
Fringing field has to be taken into account in the formulation of electrostatic parallel-plate actua...
Abstract—Electrostatic parallel-plate actuators are a common way of actuating microelectromechanical...
Abstract—This paper addresses the control of electrostatic parallel-plate microactuators in the pres...
The electrostatic instability (pull-in) of a flat electrode in a parallel plate capacitor has been s...
Abstract — Electrostatic parallel-plate actuators are a common way of actuating MEMS devices, both s...
13th IASTED International Conference on Control and Applications, CA 2011; Vancouver, BC; Canada; 1 ...
This paper provides new investigation for the static and dynamic behavior of a MEMS parallel plate c...
In the last decades, Micro-Electro-Mechanical Systems (MEMS) have drawn immense attention due to the...
This work deals with the mechanical response of circular microplates undergoing electrostatic actuat...
this paper uses a similar commercial surface micromachining process [3] to create large parallel pla...