Add to ORKGWe investigate the applicability of a MEMS stage in a vacuum environment. The stage is suspended by a flexure mechanism and is actuated by electrostatic comb-drives. The position of the stage is measured by an integrated sensor based on the conductance of heat through air. The vacuum behavior of the sensor and the stage is identified. A model for thermal conductivity and viscous damping as a function of the vacuum pressure is presented and validated by measuring the decreasing sensor response and the increasing Q-factor for decreasing pressure. We have identified the system in the frequency domain, which is used to compare the closed-loop behavior with three different controllers: an integral controller, an integral controller with low-pass...
This paper examines the feasibility of using displacement sensors based on electro-thermal principle...
Robotic and mechatronic systems are particularly sensitive regarding their thermal environment. The ...
The work proposes and experimentally verifies a new model for the prediction of the quality (Q) fact...
We investigate the applicability of a MEMS stage in a vacuum environment. The stage is suspended by ...
This thesis is a part of the CLEMPS (Closed Loop Embedded MEMS-based Precision Stage) project. Withi...
This thesis reports how prototypes of micromachined vacuum sensors were designed, fabricated and cha...
Except for MEMS working in a ultra high vacuum, the main cause of damping is the air surrounding the...
Except for MEMS working in ultra high vacuum, the main cause of damping is the air surrounding the s...
Except for MEMS working in ultra high vacuum, the main cause of damping is the air surrounding the s...
In this work we describe a one degree- of-freedom microelectromechanical thermal displacement sensor...
This work presents the design and optimization of a large stroke planar positioning stage in a singl...
This work presents a MEMS displacement sensor based on the conductive heat transfer of a resistively...
This work focuses on the interface circuitry design for MEMS resonator-based vacuum sensors. Two new...
Realization of intelligent thermal vacuum sensors based on multipurpose thermopile micro-electromech...
A sensitive micro-Pirani vacuum sensor has been fabricated. With effective schemes of ambient-temper...
This paper examines the feasibility of using displacement sensors based on electro-thermal principle...
Robotic and mechatronic systems are particularly sensitive regarding their thermal environment. The ...
The work proposes and experimentally verifies a new model for the prediction of the quality (Q) fact...
We investigate the applicability of a MEMS stage in a vacuum environment. The stage is suspended by ...
This thesis is a part of the CLEMPS (Closed Loop Embedded MEMS-based Precision Stage) project. Withi...
This thesis reports how prototypes of micromachined vacuum sensors were designed, fabricated and cha...
Except for MEMS working in a ultra high vacuum, the main cause of damping is the air surrounding the...
Except for MEMS working in ultra high vacuum, the main cause of damping is the air surrounding the s...
Except for MEMS working in ultra high vacuum, the main cause of damping is the air surrounding the s...
In this work we describe a one degree- of-freedom microelectromechanical thermal displacement sensor...
This work presents the design and optimization of a large stroke planar positioning stage in a singl...
This work presents a MEMS displacement sensor based on the conductive heat transfer of a resistively...
This work focuses on the interface circuitry design for MEMS resonator-based vacuum sensors. Two new...
Realization of intelligent thermal vacuum sensors based on multipurpose thermopile micro-electromech...
A sensitive micro-Pirani vacuum sensor has been fabricated. With effective schemes of ambient-temper...
This paper examines the feasibility of using displacement sensors based on electro-thermal principle...
Robotic and mechatronic systems are particularly sensitive regarding their thermal environment. The ...
The work proposes and experimentally verifies a new model for the prediction of the quality (Q) fact...