← Volver a resultados
Ficha bibliográfica · Consulta y acceso
Artículo

Advanced physical modeling approaches for high-precision TCAD simulation of GaN HEMT power devices: a review

Haocheng Zhao et al · Springer · 2026

Acceso abierto disponible
Lectura rápida. Revisá los datos básicos del recurso y luego accedé al contenido desde el botón principal. En esta ficha solo se muestra la información necesaria para identificar la obra, citarla y abrirla.

Acceso al recurso

Entrá al contenido desde la opción principal o elegí otra fuente disponible.

Acceso principal

Acceso abierto disponible

Recurso identificado como acceso abierto, sin confirmar automáticamente si es texto completo directo.
Abrir recurso

Resumen

Descripción general del contenido del recurso.

Abstract High-electron-mobility transistors (HEMTs) based on wide bandgap (WBG) materials like gallium nitride (GaN) are vital for next-generation power electronics and high-frequency applications, offering high breakdown voltage, electron mobility, and power density. The global shift toward electrification and sustainability is driving demand for GaN and silicon carbide (SiC) power devices. However, challenges such as current collapse and increased channel resistance under high-power conditions hinder performance. To address these limitations, numerous solutions have been explored, with simulation emerging as an indispensable starting point. Technology Computer-Aided Design (TCAD) simulations play a critical role by enabling accurate modeling, performance optimization, and reduced experimental effort. This paper reviews key and advanced physical models in TCAD simulations of GaN HEMTs, covering mechanisms such as carrier transport, thermal effects, and impact ionization. Mobility models—FLDMOB, Albrecht, Gansat, Yamaguchi, Brooks-Herring, and Conwell-Weisskopf—are analyzed for capturing velocity saturation and nonlocal transport. Recombination models like Shockley-Read-Hall and Auger are discussed in relation to carrier lifetime, while impact ionization models, including van-Overstraeten-de-Man, Selberherr, and Okuto-Crowell, are evaluated for breakdown prediction. Emphasis is placed on choosing models suited to specific structures and conditions to ensure simulation accuracy. Advanced modeling enhances TCAD’s predictive power, supporting innovation in GaN-based power electronics.

Cómo citar

Elegí el formato que necesitás y copiá la referencia al portapapeles.

APA 7

al, H. Z. E. (2026). Advanced physical modeling approaches for high-precision TCAD simulation of GaN HEMT power devices: a review. https://doi.org/10.1186/s11671-026-04571-0

MLA

al, Haocheng Zhao et. "Advanced physical modeling approaches for high-precision TCAD simulation of GaN HEMT power devices: a review." 2026. https://doi.org/10.1186/s11671-026-04571-0.

Chicago

al, Haocheng Zhao et. 2026. "Advanced physical modeling approaches for high-precision TCAD simulation of GaN HEMT power devices: a review.". https://doi.org/10.1186/s11671-026-04571-0.

Harvard

al, H. Z. E. 2026, Advanced physical modeling approaches for high-precision TCAD simulation of GaN HEMT power devices: a review, Springer, available at: https://doi.org/10.1186/s11671-026-04571-0 [Accessed 29 Jun. 2026].

Compartir e imprimir

Guardá la ficha, copiá su enlace permanente o imprimila como PDF.

Exportar referencia

Si usás un gestor bibliográfico, podés exportar el registro en los formatos más comunes.

Detalles del recurso

Información bibliográfica útil para confirmar que se trata del material correcto.

Título
Advanced physical modeling approaches for high-precision TCAD simulation of GaN HEMT power devices: a review
Autor / colaboradores
Haocheng Zhao et al
Editorial
Springer
Año de publicación
2026
ISSN
2731-9229
ISSN
2731-9229
Idioma
eng

Materias

Explorá otros recursos relacionados a partir de estas materias.

Copiado