CORDIS Project
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This project aims to develop advanced 3D magnetometers using innovative microstructures and wide-bandgap semiconductor technology. These devices will significantly enhance accuracy and miniaturization for applications in autonomous microsystems, including biomedical implants and nanosatellites.
Chip-scale magnetometers come in several flavors, the most common being silicon Hall-effect plates that integrate easily with electronics.
However, these devices only detect 1D fields, are asymmetric between X-Y and Z directions, and cannot work in extreme temperatures.
My goal is to leverage my expertise in micromachining and wide-bandgap semiconductor Hall-plates to realize magnetometers with a unique ""3D"" microstructure that uses 10% of the space of existing ""3x1D"" sensors, and is 3-10x…
TECHNISCHE UNIVERSITEIT DELFT
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