Add to ORKGThis paper studies the principle of a voltage step-up converter based on a micromachined variable parallel-plate capacitor in combination with an electrostatic actuator. Electrical equivalent circuit and system-level SIMULINK models have been developed. An analysis of design parameters serves as a starting point for a novel prototype implementation. Possible areas of application are self-powered, standalone sensing systems, space applications and any kind of electrostatic or piezoelectric microsystem in general
International audienceThis paper is about the validation of minimal electronic structure developed a...
A micromechanical moving plate capacitor has been designed and fabricated for use as the key compone...
A micromechanical moving plate capacitor has been designed and fabricated for use as a dc voltage re...
This paper studies the principle of a novel voltage step-up converter based on a micromachined varia...
This paper studies the principle of a novel voltage step-up converter based on a micromachined varia...
This paper presents a comprehensive analysis of a MEMS voltage step-up converter for energy harvesti...
peer reviewedThis paper presents a comprehensive analysis of voltage step-up converters for energy h...
International audienceThis paper presents a theoretical study of a novel MEMS approach to dc voltage...
ISBN 978-1-4244-6806-5International audienceThis paper presents a new MEMS approach to dc voltage st...
ISBN 978-1-4398-3402-2International audienceIn this paper, we present the modelling, the design, and...
This thesis explores high voltage converter circuits for MEMS applications using micromachined devic...
Current trends towards miniaturization of electronic circuits had led to the advent of System onChip...
A micromechanical silicon device suitable for DC-DC voltage up-conversion is investigated theoretica...
La tendance actuelle vers la miniaturisation des circuits électroniques a poussé vers ledéveloppemen...
Autonomous devices such as wireless sensors and sensor networks need a long battery lifetime in a sm...
International audienceThis paper is about the validation of minimal electronic structure developed a...
A micromechanical moving plate capacitor has been designed and fabricated for use as the key compone...
A micromechanical moving plate capacitor has been designed and fabricated for use as a dc voltage re...
This paper studies the principle of a novel voltage step-up converter based on a micromachined varia...
This paper studies the principle of a novel voltage step-up converter based on a micromachined varia...
This paper presents a comprehensive analysis of a MEMS voltage step-up converter for energy harvesti...
peer reviewedThis paper presents a comprehensive analysis of voltage step-up converters for energy h...
International audienceThis paper presents a theoretical study of a novel MEMS approach to dc voltage...
ISBN 978-1-4244-6806-5International audienceThis paper presents a new MEMS approach to dc voltage st...
ISBN 978-1-4398-3402-2International audienceIn this paper, we present the modelling, the design, and...
This thesis explores high voltage converter circuits for MEMS applications using micromachined devic...
Current trends towards miniaturization of electronic circuits had led to the advent of System onChip...
A micromechanical silicon device suitable for DC-DC voltage up-conversion is investigated theoretica...
La tendance actuelle vers la miniaturisation des circuits électroniques a poussé vers ledéveloppemen...
Autonomous devices such as wireless sensors and sensor networks need a long battery lifetime in a sm...
International audienceThis paper is about the validation of minimal electronic structure developed a...
A micromechanical moving plate capacitor has been designed and fabricated for use as the key compone...
A micromechanical moving plate capacitor has been designed and fabricated for use as a dc voltage re...