Very High In‐Plane Magnetic Field Sensitivity in Ion‐Implanted 4H‐SiC PIN Diodes

Okeil, Hesham; Erlbacher, Tobias; Wachutka, Gerhard

doi:10.1002/aelm.202300531

Adv Elect Materials

2024

DOI: 10.1002/aelm.202300531

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Very High In‐Plane Magnetic Field Sensitivity in Ion‐Implanted 4H‐SiC PIN Diodes

Hesham Okeil,

Tobias Erlbacher,

Gerhard Wachutka

Abstract: In this study ion‐implanted lateral 4H‐SiC pin diodes are reported, which show an unexpectedly high room temperature in‐plane magnetic field sensitivity approaching 100 % at 0.5 Tesla. Using dedicated TCAD simulations the underlying transduction mechanism is studied, and the effect of implantation‐induced carrier traps on the observed high sensitivity is unraveled. The study shows how such traps can greatly control the injection conditions at the highly doped implant regions providing a plausible explanation f… Show more

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2024

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Cited by 3 publications

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Very High Temperature Hall Sensors in a Wafer‐Scale 4H‐SiC Technology

Okeil,

Erlbacher,

Wachutka

2024

Adv Materials Technologies

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Abstract4H‐SiC is a key enabler for realizing integrated electronics operating in harsh environments, which exhibit very high temperatures. Through advances in 4H‐SiC process technology, different sensor and circuit types have been demonstrated to operate stable at temperatures as high as 800 °C, paving the way toward harsh‐environment immune smart sensors. In this work, for the first time the operation of ion‐implanted 4H‐SiC Hall sensors realized in a wafer scale Bipolar‐CMOS‐DMOS technology is demonstrated at a wide operation temperature range spanning room temperature up to 500 °C in addition to short‐term operation up to 600 °C. The temperature‐dependent sensor characteristics of 15–22 samples are evaluated in terms of sensitivity and noise. The small inter‐device variations reflect the stability of the used process for very high temperature Hall sensors. The noise‐limited detectivity is further evaluated, revealing a best value of 950 nT/ and a mean detectivity of 1 µT/ at 500 °C. This is the best value reported up to date for very high temperature Hall sensors, besides being the first demonstration of ion‐implanted wide‐bandgap Hall sensors. Overall, the results reflect the potential of the demonstrated Hall sensors for the next generation of integrated magnetic field sensors in harsh environments.

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Very High Temperature Hall Sensors in a Wafer‐Scale 4H‐SiC Technology

Okeil,

Erlbacher,

Wachutka

2024

Adv Materials Technologies

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

Okeil,

Wachutka

2024

IEEE Sensors J.

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4H-SiC Lateral Magnetotransistor With Sub-Microtesla In-Plane Magnetic Field Detectivity

Okeil,

Wachutka

2024

IEEE Electron Device Lett.

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Very High In‐Plane Magnetic Field Sensitivity in Ion‐Implanted 4H‐SiC PIN Diodes

Cited by 3 publications

References 65 publications

Very High Temperature Hall Sensors in a Wafer‐Scale 4H‐SiC Technology

Very High Temperature Hall Sensors in a Wafer‐Scale 4H‐SiC Technology

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

4H-SiC Lateral Magnetotransistor With Sub-Microtesla In-Plane Magnetic Field Detectivity

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