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Hauptverfasser: Alam, Md Tahmidul, Chen, Jiahao, Stephenson, Kenneth, Mamun, Md Abdullah-Al, Mazumder, Abdullah Al Mamun, Pasayat, Shubhra S., Khan, Asif, Gupta, Chirag
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2407.10354
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author Alam, Md Tahmidul
Chen, Jiahao
Stephenson, Kenneth
Mamun, Md Abdullah-Al
Mazumder, Abdullah Al Mamun
Pasayat, Shubhra S.
Khan, Asif
Gupta, Chirag
author_facet Alam, Md Tahmidul
Chen, Jiahao
Stephenson, Kenneth
Mamun, Md Abdullah-Al
Mazumder, Abdullah Al Mamun
Pasayat, Shubhra S.
Khan, Asif
Gupta, Chirag
contents High voltage (~2 kV) AlGaN-channel HEMTs were fabricated with 64% Aluminum composition in the channel. The average on-resistance was ~75 ohm. mm (~21 miliohm. cm^2) for LGD = 20 microns. Breakdown voltage reached >3 kV (tool limit) before passivation however it reduced to ~2 kV after SiN surface passivation and field plates. The apparent high breakdown voltage prior to passivation can possibly be attributed to the field plate effect of the charged trap states of the surface. The breakdown voltage and RON demonstrated a strong linear correlation in a scattered plot with ~50 measured transistors. In pulsed IV measurements with 100 microsecond pulse width and 40 V of off-state bias (tool limit), the dynamic RON increased by ~5% compared to DC RON and current collapse was <10%.
format Preprint
id arxiv_https___arxiv_org_abs_2407_10354
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle High Voltage (~2 kV) field-plated Al0.64Ga0.36N-channel HEMTs
Alam, Md Tahmidul
Chen, Jiahao
Stephenson, Kenneth
Mamun, Md Abdullah-Al
Mazumder, Abdullah Al Mamun
Pasayat, Shubhra S.
Khan, Asif
Gupta, Chirag
Applied Physics
High voltage (~2 kV) AlGaN-channel HEMTs were fabricated with 64% Aluminum composition in the channel. The average on-resistance was ~75 ohm. mm (~21 miliohm. cm^2) for LGD = 20 microns. Breakdown voltage reached >3 kV (tool limit) before passivation however it reduced to ~2 kV after SiN surface passivation and field plates. The apparent high breakdown voltage prior to passivation can possibly be attributed to the field plate effect of the charged trap states of the surface. The breakdown voltage and RON demonstrated a strong linear correlation in a scattered plot with ~50 measured transistors. In pulsed IV measurements with 100 microsecond pulse width and 40 V of off-state bias (tool limit), the dynamic RON increased by ~5% compared to DC RON and current collapse was <10%.
title High Voltage (~2 kV) field-plated Al0.64Ga0.36N-channel HEMTs
topic Applied Physics
url https://arxiv.org/abs/2407.10354