Comprehensive RF stress-test campaign has been performed over AlGaN/GaN high-electron mobility transistor employing different GaN buffer designs, including unintentional doping, carbon doping and iron doping. No signature of gate-edge degradation has been found, and good correlation emerges between the buffer composition, subthreshold leakage current, and permanent degradation of the RF performance. The degradation mechanism, more pronounced in devices with parasitic buffer conductivity, involves the generation of additional deep trap states, the worsening of the dynamic current collapse, and the subsequent degradation of RF output power.
Hot-Electron Degradation of AlGaN/GaN High-Electron Mobility Transistors During RF Operation: Correlation With GaN Buffer Design / Bisi, D.; Chini, Alessandro; Soci, Fabio; Stocco, A.; Meneghini, M.; Pantellini, A.; Nanni, A.; Lanzieri, C.; Gamarra, P.; Lacam, C.; Tordjman, M.; di Forte Poisson, M. A.; Meneghesso, G.; Zanoni, E.. - In: IEEE ELECTRON DEVICE LETTERS. - ISSN 0741-3106. - STAMPA. - 36:10(2015), pp. 1011-1014. [10.1109/LED.2015.2474116]
Hot-Electron Degradation of AlGaN/GaN High-Electron Mobility Transistors During RF Operation: Correlation With GaN Buffer Design
CHINI, Alessandro;SOCI, FABIO;
2015
Abstract
Comprehensive RF stress-test campaign has been performed over AlGaN/GaN high-electron mobility transistor employing different GaN buffer designs, including unintentional doping, carbon doping and iron doping. No signature of gate-edge degradation has been found, and good correlation emerges between the buffer composition, subthreshold leakage current, and permanent degradation of the RF performance. The degradation mechanism, more pronounced in devices with parasitic buffer conductivity, involves the generation of additional deep trap states, the worsening of the dynamic current collapse, and the subsequent degradation of RF output power.
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