Archivio Istituzionale della RicercaIn this work we demonstrate an accurate Technology Computer Aided Design (TCAD) modeling approach for the analysis of trap effects on the electrical features of AlGaN/GaN HEMT devices for microwave applications. The physical device model includes the discretized coupled drift-diffusion and trap rate equations system, implemented into an in-house mixed-mode TCAD simulator, and solved in dynamic conditions with the Harmonic Balance (HB) algorithm. The TCAD allows a seamless assessment of the DC, small-signal AC and periodic large-signal (LS) behavior of GaN HEMTs as a function of the trap properties. A test-case addresses the analysis of 29 GHz class B power amplifier based on a Fe-doped 150 nm GaN HEMT as a function of the Fe trap energy, showing that, despite a marked signature on the AC parameters dispersion, traps have a mild impact on single-tone LS behavior even in strongly non-linear operation.
TCAD accurate modeling of trap-induced effects in GaN HEMTs / Guerrieri, Simona Donati; Catoggio, Eva; Bonani, Fabrizio. - ELETTRONICO. - (2025), pp. 42-45. (Intervento presentato al convegno 2025 IEEE MTT-S Latin America Microwave Conference (LAMC) tenutosi a San Juan (USA) nel 22-24 Jan 2025) [10.1109/lamc63321.2025.10880539].
TCAD accurate modeling of trap-induced effects in GaN HEMTs
Guerrieri, Simona Donati;Catoggio, Eva;Bonani, Fabrizio
2025
Abstract
In this work we demonstrate an accurate Technology Computer Aided Design (TCAD) modeling approach for the analysis of trap effects on the electrical features of AlGaN/GaN HEMT devices for microwave applications. The physical device model includes the discretized coupled drift-diffusion and trap rate equations system, implemented into an in-house mixed-mode TCAD simulator, and solved in dynamic conditions with the Harmonic Balance (HB) algorithm. The TCAD allows a seamless assessment of the DC, small-signal AC and periodic large-signal (LS) behavior of GaN HEMTs as a function of the trap properties. A test-case addresses the analysis of 29 GHz class B power amplifier based on a Fe-doped 150 nm GaN HEMT as a function of the Fe trap energy, showing that, despite a marked signature on the AC parameters dispersion, traps have a mild impact on single-tone LS behavior even in strongly non-linear operation.
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https://hdl.handle.net/11583/2998503