A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Design and performance analysis of Tri-gate GaN HEMTs
GaN-based high electron mobility transistors (HEMT) are promising devices for radio frequency (RF) and high-power electronics and are already in use for RF power amplifiers and for power switches. Commonly, these devices are normally-on transistors, i.e., they are in the on-state at zero applied gate voltage, what limits their suitability for various applications, such as fail-safe power switches and RF amplifiers with single-polarity power supply. Unfortunately, in contrast to GaAs- and InP HEMTs, achieving normally-off operation, i.e., a positive thresh-old voltage, for GaN heterostructures is difficult due to the high density of the polarization-induced two-dimensional electron gas (2DEG) at the barrier/buffer interface. For fast RF HEMTs, short gates are required. However, HEMTs with aggres-sively scaled gate length frequently suffer from short-channel effects caused by a degraded control of the gate over the channel. This leads to a deterioration of the transistors off-state performance (increased subthreshold swing and drain-induced barrier lowering) and on-state behavior (increased drain conductance). The tri-gate design has recently been applied to MOSFETs and HEMTs to improve the gate control and suppress short channel effects. Experimental tri-gate transistors show excellent down-scaling characteristics, improved performance, and, in particular for GaN tri-gate HEMTs, a significant shift of the threshold voltage toward positive values. On the other hand, tri-gate GaN normally-off HEMTs are still suffering from increased parasitics causing degraded RF performance (particularly in terms of cutoff frequency) compared to their planar counterparts. Improving the RF performance of GaN tri-gate HEMTs by reducing the parasitics is essential, but this requires a deep understanding of device physics and a thorough analysis of the root causes. In the present work, in-depth theoretical investigations of GaN tri-gate HEMT operation are performed and extensive simulation studies for these devices are conducted. As a ...
Design and performance analysis of Tri-gate GaN HEMTs
GaN-based high electron mobility transistors (HEMT) are promising devices for radio frequency (RF) and high-power electronics and are already in use for RF power amplifiers and for power switches. Commonly, these devices are normally-on transistors, i.e., they are in the on-state at zero applied gate voltage, what limits their suitability for various applications, such as fail-safe power switches and RF amplifiers with single-polarity power supply. Unfortunately, in contrast to GaAs- and InP HEMTs, achieving normally-off operation, i.e., a positive thresh-old voltage, for GaN heterostructures is difficult due to the high density of the polarization-induced two-dimensional electron gas (2DEG) at the barrier/buffer interface. For fast RF HEMTs, short gates are required. However, HEMTs with aggres-sively scaled gate length frequently suffer from short-channel effects caused by a degraded control of the gate over the channel. This leads to a deterioration of the transistors off-state performance (increased subthreshold swing and drain-induced barrier lowering) and on-state behavior (increased drain conductance). The tri-gate design has recently been applied to MOSFETs and HEMTs to improve the gate control and suppress short channel effects. Experimental tri-gate transistors show excellent down-scaling characteristics, improved performance, and, in particular for GaN tri-gate HEMTs, a significant shift of the threshold voltage toward positive values. On the other hand, tri-gate GaN normally-off HEMTs are still suffering from increased parasitics causing degraded RF performance (particularly in terms of cutoff frequency) compared to their planar counterparts. Improving the RF performance of GaN tri-gate HEMTs by reducing the parasitics is essential, but this requires a deep understanding of device physics and a thorough analysis of the root causes. In the present work, in-depth theoretical investigations of GaN tri-gate HEMT operation are performed and extensive simulation studies for these devices are conducted. As a ...
Design and performance analysis of Tri-gate GaN HEMTs
Alsharef, Mohamed (author) / Ziegler, Martin / Krischok, Stefan / Ganzner, Ralf
2020-06-08
Theses
Electronic Resource
English
High Performance AlGaN/GaN HEMTs with Recessed Gate
| British Library Online Contents | 2002
Gate metal dependent electrical characteristics of AlGaN/GaN HEMTs
| British Library Online Contents | 2014
Review of technology for normally-off HEMTs with p-GaN gate
| British Library Online Contents | 2018
Review of technology for normally-off HEMTs with p-GaN gate
| British Library Online Contents | 2018
High CW Power 0.3 mum Gate AlGaN/GaN HEMTs Grown by MBE on Sapphire
| British Library Online Contents | 2004