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Proceedings Paper

Degradation effects and origin in H-terminated diamond MESFETs
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Paper Abstract

H-terminated diamond MESFETs are emerging devices for RF and power electronics applications, but few studies reported in the literature analyze their charge-trapping phenomena and long-term stability.
We analyze the effects of stress in off-state condition at increasing drain bias. The main variations are an increase in on resistance (Ron) and in threshold voltage (Vth) and a decrease in the peak transconductance value, whereas the gate diode remains stable during the test. The Ron and Vth variations are correlated, suggesting a common degradation mechanism for both effects.
By means of sampled filling and recovery measurements, it is possible to highlight a trapping process occurring in off-state condition and dependent on the drain filling bias. This process is related to deep levels located both in the access regions and in the region under the gate, since it results in both Ron and Vth shifts. By means of temperature-dependent recovery measurements, a dominant thermal activation energy of 0.30 eV was found. The good fit quality according to the “stretched exponential” model indicates that the deep levels are extended defects or energy mini-bands.
The amplitude of the recovery transient collected after the same filling condition increases after stress at higher drain voltage, confirming that the deep levels causing the detected dynamic variation are increasing in concentration as a consequence of the stress. The good correlation between the amplitude and the Ron variation suggests that the detected variation in concentration is the root cause for the degradation of the device.

Paper Details

Date Published: 2 March 2020
PDF: 7 pages
Proc. SPIE 11279, Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications XIII, 112791X (2 March 2020); doi: 10.1117/12.2546149
Show Author Affiliations
Carlo De Santi, Univ. of Padova (Italy)
L. Pavanello, Univ. of Padova (Italy)
A. Nardo, Univ. of Padova (Italy)
C. Verona, Univ. of Rome "Tor Vergata" (Italy)
G. Verona Rinati, Univ. of Rome "Tor Vergata" (Italy)
G. Meneghesso, Univ. of Padova (Italy)
E. Zanoni, Univ. of Padova (Italy)
M. Meneghini, Univ. of Padova (Italy)

Published in SPIE Proceedings Vol. 11279:
Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications XIII
Laurence P. Sadwick; Tianxin Yang, Editor(s)

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