A micromechanical silicon device suitable for DC-DC voltage up-conversion is investigated theoretically. The behavior of the converter is simulated in the time domain using a circuit simulator. In simulations ignoring parasitic capacitances, DC voltage of level of 16 V is increased to 32 V using a micromechanical converter. The output power is 2 mW for a device with 1 mm² surface area
International audienceThis paper presents a working silicon-based MEMS electrostatic transducer for ...
Current trends towards miniaturization of electronic circuits had led to the advent of System onChip...
International audienceThis letter deals with an innovative design for a silicon MEMS dc/dc converter...
A micromechanical silicon device suitable for DC-DC voltage up-conversion is investigated theoretica...
This paper studies the principle of a voltage step-up converter based on a micromachined variable pa...
International audienceThis paper presents a theoretical study of a novel MEMS approach to dc voltage...
Prototype of a novel DC voltage reference has been constructed. A characteristic voltage of an elect...
A micromechanical silicon device is designed for use as precise batch fabricated AC voltage to DC vo...
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...
This thesis explores high voltage converter circuits for MEMS applications using micromachined devic...
ISBN 978-1-4398-3402-2International audienceIn this paper, we present the modelling, the design, and...
ISBN 978-1-4244-6806-5International audienceThis paper presents a new MEMS approach to dc voltage st...
Abstract—For various medical monitoring and sensing applica-tions it is desirable to power the elect...
International audienceThis paper presents a working silicon-based MEMS electrostatic transducer for ...
Current trends towards miniaturization of electronic circuits had led to the advent of System onChip...
International audienceThis letter deals with an innovative design for a silicon MEMS dc/dc converter...
A micromechanical silicon device suitable for DC-DC voltage up-conversion is investigated theoretica...
This paper studies the principle of a voltage step-up converter based on a micromachined variable pa...
International audienceThis paper presents a theoretical study of a novel MEMS approach to dc voltage...
Prototype of a novel DC voltage reference has been constructed. A characteristic voltage of an elect...
A micromechanical silicon device is designed for use as precise batch fabricated AC voltage to DC vo...
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...
This thesis explores high voltage converter circuits for MEMS applications using micromachined devic...
ISBN 978-1-4398-3402-2International audienceIn this paper, we present the modelling, the design, and...
ISBN 978-1-4244-6806-5International audienceThis paper presents a new MEMS approach to dc voltage st...
Abstract—For various medical monitoring and sensing applica-tions it is desirable to power the elect...
International audienceThis paper presents a working silicon-based MEMS electrostatic transducer for ...
Current trends towards miniaturization of electronic circuits had led to the advent of System onChip...
International audienceThis letter deals with an innovative design for a silicon MEMS dc/dc converter...
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