500 °C Microtesla Sensitive Magnetic Field Sensing Using a 4H-SiC PIN Diode

Okeil, H.; Wachutka, G.

Title:: 500 °C Microtesla Sensitive Magnetic Field Sensing Using a 4H-SiC PIN Diode
Document type:: Magazinartikel
Author(s):: Okeil, H.; Wachutka, G.
Keywords:: 4H-SiC pin diode, harsh environment electronics, magnetic field sensors; Magnetic Field; PIN Diodes; Microtesla; Measurement Noise; Harsh Environments; Wide Bandgap; Thermal Noise; Silicon Carbide; Wide Bandgap Semiconductor; Magnetic Noise; Magnetic Sensitivity; Magnetometer; Absolute Change; Device Fabrication; Temperature Sensor; Bias Voltage; Magnetic Measurements; Temperature Regi Relative Sensitivity; High Magnetic Field; Magnetic Field Sensors; Diode Current; Drift Current; Epitaxial Layer; Stacking Faults; Hall Sensor; Source Measure Unit; High Temperature Regime; Slow Drift; In-plane Magnetic Field; Okeil, H.; Wachutka, G. «
4H-SiC pin diode, harsh environment electronics, magnetic field sensors; Magnetic Field; PIN Diodes; Microtesla; Measurement Noise; Harsh Environments; Wide Bandgap; Thermal Noise; Silicon Carbide; Wide Bandgap Semiconductor; Magnetic Noise; Magnetic Sensitivity; Magnetometer; Absolute Change; Device Fabrication; Temperature Sensor; Bias Voltage; Magnetic Measurements; Temperature Regi Relative Sensitivity; High Magnetic Field; Magnetic Field Sensors; Diode Current; Drift... »
Dewey Decimal Classification:: 620 Ingenieurwissenschaften
Journal title:: IEEE SENSORS JOURNAL
Year:: 2024
Journal volume:: VOL. 24
Year / month:: 2024-10
Quarter:: 4. Quartal
Journal issue:: NO. 19
Pages contribution:: 29884-29889
Language:: en
Fulltext / DOI:: doi:10.1109/JSEN.2024.3440256
WWW:: https://www.researchgate.net/publication/383198003_500C_Microtesla_Sensitive_Magnetic_Field_Sensing_Using_a_4H-SiC_PIN_Diode
Publisher:: IEEE
Print-ISSN:: 1530-437X
E-ISSN:: 1558-1748
Submitted:: 07.06.2024
Accepted:: 13.07.2024
Date of publication:: 16.08.2024
Copyright statement:: CCBY - IEEE is not the copyright holder of this material. Please follow the instructions via https://creativecommons.org/licenses/by/4.0/ to obtain full-text articles and stipulations in the API documentation. © 2024 The Authors. This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/
TUM Institution:: CIT, EE, Professorship of Microsensors and Actuators; (Chair of Physics of Electritechnology)
Ingested:: 15.10.2024
Last change:: 15.10.2024
CC license:: by, http://creativecommons.org/licenses/by/4.0
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mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Microsensors and Actuators (Prof. Schrag)