Sagnik Kumar scite author profile

Sagnik Kumar

2Publications

1Citation Statement Received

132Citation Statements Given

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Indian Institute of Science Bangalore

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Hall‐effect sensors based on AlGaN/GaN heterojunctions on Si substrates for a wide temperature range

Kumar

Muralidharan

Narayanan

2021

IET Circuits, Devices & Syst

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The authors report experimental investigations on Hall sensors based on AlGaN/GaN heterojunctions grown on silicon 111 (Si 111) substrates. Realisation of two-dimensional electron gas-based Hall sensors on Si substrates can have the advantages of low cost and integrability with complementary metal-oxide semiconductor circuits. Design and fabrication of such Hall sensors and their characterisation over a wide temperature range of 75 to 500 K are reported. The authors experimentally investigate the temperature dependence of the transresistances, sheet resistance and current-related sensitivity (or gain) of such Hall sensors. The current-related sensitivity is shown to be reasonably constant over the complete temperature range and certain inevitable variations in current-related sensitivity can easily be compensated. The temperature dependence of the transresistance can be used for such compensation. The variation of the geometrical correction factor of the Hall sensor with the applied magnetic field strength and the operating temperature is also studied. The authors also demonstrate the possibility of realising Hall sensors with a high geometrical correction factor ( ≈0.97), which is practically insensitive to variations in temperature ( ≃2% from 75 to 500 K) and applied magnetic field, for applications such as in electromechanical devices.This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Current Spinning and Signal Conditioning Circuit for High-Performance Magnetic Field Sensing

Kumar

Narayanan

Muralidharan

2020

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Sagnik Kumar

Hall‐effect sensors based on AlGaN/GaN heterojunctions on Si substrates for a wide temperature range

Current Spinning and Signal Conditioning Circuit for High-Performance Magnetic Field Sensing

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