Author : Yunju Sun
Publisher :
Page : 320 pages
File Size : 48,85 MB
Release : 2006
Category :
ISBN :
Author : Michael Hosch
Publisher : Cuvillier Verlag
Page : 129 pages
File Size : 30,72 MB
Release : 2011-08-08
Category : Technology & Engineering
ISBN : 3736938446
This thesis deals with the analysis and optimization of some of the most prominent non-ideal effects in AlGaN/GaN high electron mobility transistors used in microwave applications as well as the optimization of the RF gain. The effect of current collapse, the root cause of leakage currents as well as field-dependent self-heating effects have been investigated by eletrical characterization using well established techniques and have been analyzed using 2-dimensional physical device simulations. It will be shown that the origin of all effects is strongly related to the device surface and some are even competing effects making device optimization a challenge. However, a detailed localization of the regions affecting device performance will be given leading to a better understanding for fabrication process optimization. Finally, I simulation study is conducted giving suggestions for RF gain improvement based on very simple device layout variations.
Author : Yun-Ju Sun
Publisher :
Page : 148 pages
File Size : 27,41 MB
Release : 2004
Category :
ISBN :
Author : Reet Chaudhuri
Publisher : Springer Nature
Page : 266 pages
File Size : 14,37 MB
Release : 2022-12-06
Category : Technology & Engineering
ISBN : 3031171993
This thesis outlines the principles, device physics, and technological applications of electronics based on the ultra-wide bandgap semiconductor aluminum nitride. It discusses the basic principles of electrostatics and transport properties of polarization-induced two-dimensional electron and hole channels in semiconductor heterostructures based on aluminum nitride. It explains the discovery of high-density two-dimensional hole gases in undoped heterojunctions, and shows how these high conductivity n- and p-type channels are used for high performance nFETs and pFETs, along with wide bandgap RF, mm-wave, and CMOS applications. The thesis goes on to discuss how the several material advantages of aluminum nitride, such as its high thermal conductivity and piezoelectric coefficient, enable not just high performance of transistors, but also monolithic integration of passive elements such as high frequency filters, enabling a new form factor for integrated RF electronics.
Author : Bruce McRae Green
Publisher :
Page : 406 pages
File Size : 31,69 MB
Release : 2001
Category :
ISBN :
Author : Erdin Ture
Publisher : Fraunhofer Verlag
Page : 0 pages
File Size : 36,98 MB
Release : 2018
Category : Technology & Engineering
ISBN : 9783839613412
The rapidly-growing data throughput rates in a wide range of wireless communication applications are pushing the established semiconductor device technologies to their limits. Considerably higher levels of solid-state output power will therefore be needed to meet the demand in the next generation satellite communications as well as the RADAR systems. Owing to their superior material properties such as high breakdown fields and peak electron velocities, GaN-based high electron mobility transistors (HEMTs) have recently prevailed in high-power systems operating in the microwave frequency bands. On the other hand at the millimetre-wave (MMW) and sub-MMW frequencies, highly-scaled GaN HEMTs are prone to experiencing deteriorated high frequency characteristics which severely limit the high-power performance. In an attempt to overcome this, 3-dimensional GaN HEMT devices featuring the Tri-gate topology are developed in this work, exhibiting enhanced performance in terms of both off- and on-state figures of merit. The demonstrated results promote the great potential of Tri-gate GaN HEMTs for both MMW power amplifier and high-speed logic applications.
Author : David DiSanto
Publisher :
Page : 270 pages
File Size : 38,60 MB
Release : 2005
Category : Gallium nitride
ISBN :
In the last decade, All-, GaXN/GaN High Electron Mobility Transistors (HEMTs) have been intensively studied because their intrinsic electrical properties make them attractive for high power microwave device applications. Despite much progress, current slump continues to be a problem, limiting output power, reducing reliability, and complicating device modelling. In this work, a complete AĨ-, G, ̃N/GÑ HEMT fabrication procedure was developed, and electrical characteristics related to current slump, microwave modelling, and delay time analysis were explored. Low resistance ohmic contacts were achieved, enabling high channel current densities. Schottky contacts were developed with a new ion implant isolation architecture, enabling gate leakage currents 2 to 4 orders of magnitude lower than typical results from the literature. Through pulsed current-voltage measurements, the importance of bias stresses in the gate-source region was demonstrated for the first time. In contrast to the conventional "virtual gate" model, gate-source stresses were shown to be more important than gatedrain stresses when biased near threshold. Slow slump transients were studied by passivating transistor surfaces with ultrathin layers. These results excluded dielectric strain and electron injection reduction as viable passivation mechanisms. A novel model was proposed associating slow slump behaviour with trapping of many electrons at screw dislocation sites. The effect of slump on RF properties was examined through microwave measurements by extracting the parasitic source and drain resistances without special biasing. Besides significantly improving the accuracy of small-signal modelling, we were able to show the bias dependence of parasitic resistances which confirmed the effect of source-side bias stressing. The question of channel electron velocities in nitride transistors remains controversial. We determined an effective electron velocity of - 1.9 x 1 o7 cmls through two methods. We first extracted effective velocities through delay time analysis, and then through the small-signal model elements. To our knowledge, this was the first time an equivalent model extraction led to self-consistent electron velocity values for nitride transistors. Finally, our equivalent circuit model showed the correct interrelation between frequency response and access resistances. The cohesive picture of current slump, equivalent circuit model extraction, and delay time analysis gives a high degree of confidence in these results.
Author : James H. Edgar
Publisher : Institution of Electrical Engineers
Page : 692 pages
File Size : 49,23 MB
Release : 1999
Category : Technology & Engineering
ISBN :
Based on its outstanding properties, including a wide energy band gap, high thermal conductivity, and high electron drift velocity, GaN is uniquely suited for many novel devices including solar-blind UV light detectors, high power microwave transistors, and cold cathode electron emitters. This excellent reference covers the basic physical and chemical properties, surveys existing processing technology, and presents summaries of the current state-of-the-art of devices.
Author : Rüdiger Quay
Publisher : Springer Science & Business Media
Page : 492 pages
File Size : 49,57 MB
Release : 2008-04-05
Category : Technology & Engineering
ISBN : 3540718923
This book is based on nearly a decade of materials and electronics research at the leading research institution on the nitride topic in Europe. It is a comprehensive monograph and tutorial that will be of interest to graduate students of electrical engineering, communication engineering, and physics; to materials, device, and circuit engineers in research and industry; to all scientists with a general interest in advanced electronics.
Author : Stephan Maroldt
Publisher :
Page : 0 pages
File Size : 35,20 MB
Release : 2010
Category :
ISBN :
