Project for Energy Storage on a Chip for MEMS

Project for Energy Storage on a Chip for MEMS

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A new project with a budget of 262 thousands Euro was motivated by the lack of micromachined energy storage solutions that can be integrated with a MEMS harvester on a chip with a specific circuitry. . These key components of the system are highly needed for autonomous microsystems and have to be integrated to enable an energy-autonomous, but efficient operation The targeted energy storage device needs to be charged very slowly from harvesters with output energies in the μWs range. As a consequence, tailored materials and technologies for the realization of thin-film capacitors compatible with CMOS technology are of utmost importance. Target capacitance value about one hundred μF/cm2, low loss factor and low leakage currents are the expected properties of these devices.

A new project with a budget of 262 thousands Euro was motivated by the lack of micromachined energy storage solutions that can be integrated with a MEMS harvester on a chip with a specific circuitry. . These key components of the system are highly needed for autonomous microsystems and have to be integrated to enable an energy-autonomous, but efficient operation The targeted energy storage device needs to be charged very slowly from harvesters with output energies in the μWs range. As a consequence, tailored materials and technologies for the realization of thin-film capacitors compatible with CMOS technology are of utmost importance. Target capacitance value about one hundred μF/cm2, low loss factor and low leakage currents are the expected properties of these devices.

capacitor; on-chip; dielectric; high-k; atomic layer deposition

capacitor; on-chip; dielectric; high-k; atomic layer deposition

HUBÁLEK, J.; SCHNEIDER, M.; HRDÝ, R.; PRÁŠEK, J.; SCHMID, U.

2018

19.09.2017

European Passive Components Institute

Lanškroun

5

http://hdl.handle.net/