Study Of Performance And Reliability In Gan On Si Power Devices Impacts Of Oxygen Plasma In P Gan Hemts And Trench Processes In Schottky Barrier Diode

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Study Of Performance And Reliability In Gan On Si Power Devices Impacts Of Oxygen Plasma In P Gan Hemts And Trench Processes In Schottky Barrier Diode

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Author :
language : en
Publisher:
Release Date : 2022

Study Of Performance And Reliability In Gan On Si Power Devices Impacts Of Oxygen Plasma In P Gan Hemts And Trench Processes In Schottky Barrier Diode written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2022 with categories.

Power Gan Devices

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Author : Matteo Meneghini
language : en
Publisher: Springer
Release Date : 2016-09-08

Power Gan Devices written by Matteo Meneghini and has been published by Springer this book supported file pdf, txt, epub, kindle and other format this book has been release on 2016-09-08 with Technology & Engineering categories.

This book presents the first comprehensive overview of the properties and fabrication methods of GaN-based power transistors, with contributions from the most active research groups in the field. It describes how gallium nitride has emerged as an excellent material for the fabrication of power transistors; thanks to the high energy gap, high breakdown field, and saturation velocity of GaN, these devices can reach breakdown voltages beyond the kV range, and very high switching frequencies, thus being suitable for application in power conversion systems. Based on GaN, switching-mode power converters with efficiency in excess of 99 % have been already demonstrated, thus clearing the way for massive adoption of GaN transistors in the power conversion market. This is expected to have important advantages at both the environmental and economic level, since power conversion losses account for 10 % of global electricity consumption. The first part of the book describes the properties and advantages of gallium nitride compared to conventional semiconductor materials. The second part of the book describes the techniques used for device fabrication, and the methods for GaN-on-Silicon mass production. Specific attention is paid to the three most advanced device structures: lateral transistors, vertical power devices, and nanowire-based HEMTs. Other relevant topics covered by the book are the strategies for normally-off operation, and the problems related to device reliability. The last chapter reviews the switching characteristics of GaN HEMTs based on a systems level approach. This book is a unique reference for people working in the materials, device and power electronics fields; it provides interdisciplinary information on material growth, device fabrication, reliability issues and circuit-level switching investigation.

Chemical Abstracts

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Author :
language : en
Publisher:
Release Date : 2002

Chemical Abstracts written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2002 with Chemistry categories.

Reliability And Failure Analysis Of Gan On Si Power Devices

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Author : Wen Yang
language : en
Publisher:
Release Date : 2021

Reliability And Failure Analysis Of Gan On Si Power Devices written by Wen Yang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2021 with categories.

Wide bandgap power semiconductor devices, especially Gallium Nitride (GaN) high electron mobility transistors (HEMTs), have gained a lot of attention for high power applications due to their low on-resistance and high switching speed compared to their silicon counterparts. However, the reliability and failure issues related to dynamic performance, gate reliability, and electrostatic discharge have limited the wide applications of GaN power devices. This dissertation presents a systematic study of reliability and failure analysis of GaN-on-Si power devices. Firstly, the correlation between the physical trap mechanisms and the dynamic on-resistance (R[subscript on]) degradation has been investigated using a multi-frequency C-V measurement during pulse-mode stress. The experimental results indicate that the deep-level traps originated from the buffer layer play a dominant role in the dynamic R[subscript on] degradation. Secondly, the Si substrate in GaN-on-Si lateral power devices can be used as an independent contact termination rather than a thermal cooling pad. Therefore, the substrate bias effect in dynamic R[subscript on] and Gate Charge (Q[subscript g]) is necessary to explore both conduction and switching loss in GaN-based converter. A reverse dual polarity (RDP) substrate pulse technique has been developed to mitigate the dynamic R[subscript on] degradation. Thirdly, the gate reliability issues, including Time-dependent dielectric breakdown (TDDB), and Bias Temperature Instability (BTI) have been explored to improve the current capability. The physical model of TDDB in GaN power devices has been established by applying the substrate biases. And three phases of threshold voltage degradation have been presented under Negative Bias Temperature Instability stress. Lastly, the ESD characteristics of GaN power devices are considered for the development of a monolithic GaN-on-Si platform. The breakdown mechanisms under ESD stress have been comprehensively studied using Transmission Line Pulse (TLP) and Very-fast Transmission Line Pulse (VFTLP) measurements.

Gan Transistors For Efficient Power Conversion

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Author : Alex Lidow
language : en
Publisher: John Wiley & Sons
Release Date : 2019-08-12

Gan Transistors For Efficient Power Conversion written by Alex Lidow and has been published by John Wiley & Sons this book supported file pdf, txt, epub, kindle and other format this book has been release on 2019-08-12 with Science categories.

An up-to-date, practical guide on upgrading from silicon to GaN, and how to use GaN transistors in power conversion systems design This updated, third edition of a popular book on GaN transistors for efficient power conversion has been substantially expanded to keep students and practicing power conversion engineers ahead of the learning curve in GaN technology advancements. Acknowledging that GaN transistors are not one-to-one replacements for the current MOSFET technology, this book serves as a practical guide for understanding basic GaN transistor construction, characteristics, and applications. Included are discussions on the fundamental physics of these power semiconductors, layout, and other circuit design considerations, as well as specific application examples demonstrating design techniques when employing GaN devices. GaN Transistors for Efficient Power Conversion, 3rd Edition brings key updates to the chapters of Driving GaN Transistors; Modeling, Simulation, and Measurement of GaN Transistors; DC-DC Power Conversion; Envelope Tracking; and Highly Resonant Wireless Energy Transfer. It also offers new chapters on Thermal Management, Multilevel Converters, and Lidar, and revises many others throughout. Written by leaders in the power semiconductor field and industry pioneers in GaN power transistor technology and applications Updated with 35% new material, including three new chapters on Thermal Management, Multilevel Converters, Wireless Power, and Lidar Features practical guidance on formulating specific circuit designs when constructing power conversion systems using GaN transistors A valuable resource for professional engineers, systems designers, and electrical engineering students who need to fully understand the state-of-the-art GaN Transistors for Efficient Power Conversion, 3rd Edition is an essential learning tool and reference guide that enables power conversion engineers to design energy-efficient, smaller, and more cost-effective products using GaN transistors.

Effects Of Gate Stress And Parasitic Package Inductance On The Reliability Of Gan Hemts

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Author : Cheikh Abdoulahi Tine
language : en
Publisher:
Release Date : 2017

Effects Of Gate Stress And Parasitic Package Inductance On The Reliability Of Gan Hemts written by Cheikh Abdoulahi Tine and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2017 with Gallium nitride categories.

Recent advances in the development of gallium nitride (GaN) high electron mobility transistor (HEMT) have shown promising results in the application of high frequency power conversion techniques. GaN transistors are emerging as a credible alternative to silicon (Si) devices in multiple power conversion applications. This is mainly because the characteristics of GaN offer higher electron mobility, electron velocity, and higher breakdown voltage compared to (Si) devices. In spite of the promising attributes offered by GaN devices, significant technological readiness level challenges remain, in order for the technology to be adopted pervasively into the market. These challenges relate to the reliability of the material both at the device-physics level, and at the circuit-implementation level. This thesis presents detailed studies on some of the circuit-level reliability phenomena affecting GaN technology. These studies will offer a better understanding of the limitations associated with GaN so that the technology's beneficial aspects can be leveraged. The first reliability investigation performed was related to a comparison of two 600 V GaN HEMTs based on the same die, however packaged in two different configurations. In order to characterize the performance of the GaN HEMT, a realistic behavioral simulation model was developed in this thesis. The model takes into consideration both the static and dynamic characteristics of the HEMT including drain current variations with respect to gate voltage and drain voltage, ON resistance, intrinsic capacitances, and reverse recovery current and charge. The model was also integrated with values for the per-terminal parasitic package inductances. These values were obtained through empirical measurement. The modeled transistor was then simulated in a converter to analyze the overall performance of the system. Experimental results verified the results obtained by the model. This study thus presents a framework to project and assess the effect of each parasitic inductance on the performance of next generation GaN devices. In the second reliability study, the effect of gate-stress on the performance of normally-off GaN HEMT devices in a boost converter was investigated. The converter's efficiency, output voltage stability, and gate current were evaluated in order to scrutinize the failure mechanisms of pGaN gated lateral GaN devices under high gate stress. It was observed that the transient overshoot of the gate voltage during turn-on becomes switching frequency-dependent once the device has suffered sufficient degradation, leading to a marked decline in converter performance. This observation has not been reported in the previous literature. This improved understanding may allow mitigation of degradation mechanisms in GaN at the fabrication, packaging, and circuit implementation level. The results of this thesis are beneficial in two ways. First it offers insights into the safe and reliable implementation of GaN devices at the circuits-level, thus obviating the need to trade device performance for device safety. Secondly, the gate-stressing investigation unveils degradation characteristics that are of critical importance to the design and fabrication of next generation GaN devices.

Wide Bandgap Based Devices

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Author : Farid Medjdoub
language : en
Publisher: MDPI
Release Date : 2021-05-26

Wide Bandgap Based Devices written by Farid Medjdoub and has been published by MDPI this book supported file pdf, txt, epub, kindle and other format this book has been release on 2021-05-26 with Technology & Engineering categories.

Emerging wide bandgap (WBG) semiconductors hold the potential to advance the global industry in the same way that, more than 50 years ago, the invention of the silicon (Si) chip enabled the modern computer era. SiC- and GaN-based devices are starting to become more commercially available. Smaller, faster, and more efficient than their counterpart Si-based components, these WBG devices also offer greater expected reliability in tougher operating conditions. Furthermore, in this frame, a new class of microelectronic-grade semiconducting materials that have an even larger bandgap than the previously established wide bandgap semiconductors, such as GaN and SiC, have been created, and are thus referred to as “ultra-wide bandgap” materials. These materials, which include AlGaN, AlN, diamond, Ga2O3, and BN, offer theoretically superior properties, including a higher critical breakdown field, higher temperature operation, and potentially higher radiation tolerance. These attributes, in turn, make it possible to use revolutionary new devices for extreme environments, such as high-efficiency power transistors, because of the improved Baliga figure of merit, ultra-high voltage pulsed power switches, high-efficiency UV-LEDs, and electronics. This Special Issue aims to collect high quality research papers, short communications, and review articles that focus on wide bandgap device design, fabrication, and advanced characterization. The Special Issue will also publish selected papers from the 43rd Workshop on Compound Semiconductor Devices and Integrated Circuits, held in France (WOCSDICE 2019), which brings together scientists and engineers working in the area of III–V, and other compound semiconductor devices and integrated circuits. In particular, the following topics are addressed: – GaN- and SiC-based devices for power and optoelectronic applications – Ga2O3 substrate development, and Ga2O3 thin film growth, doping, and devices – AlN-based emerging material and devices – BN epitaxial growth, characterization, and devices

Design Fabrication And Characterization Of Gan Based Devices For Power Applications

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Author : Burcu Ercan
language : en
Publisher:
Release Date : 2020

Design Fabrication And Characterization Of Gan Based Devices For Power Applications written by Burcu Ercan and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2020 with categories.

Gallium Nitride (GaN) and related alloys have gained considerable momentum in recent years since the improvement in silicon (Si) based power devices is now only incremental. GaN is a promising material for high-power, high-frequency applications due to its wide bandgap, high carrier mobility which result in devices with high breakdown voltage, low on-resistance, and high temperature stability. Despite the superior properties of GaN there is still room for improvement in device design and fabrication to reach theoretical limits of GaN based devices. Reaching the theoretical critical electric field in GaN devices has been challenging due to the presence of threading dislocations, surface impurities introduced during material growth and fabrication process. In order to prevent premature breakdown of the devices, these defects must be mitigated. In this study, avalanche breakdown was observed in p-n diodes fabricated with low power reactive ion etch with a moat etch profile, followed by Mg ion implantation to passivate the plasma damages. Additionally, the devices were fabricated on free standing GaN substrates which has lower dislocation than sapphire or SiC substrates. The electron and hole impact ionization coefficients were extracted separately by analyzing the ultraviolet (UV) assisted reverse bias current voltage measurements of vertical p-n and n-p diodes. GaN and related alloy such as Indium Aluminum Nitride (InAlN) or Aluminum Gallium Nitride (AlGaN) form a high mobility, high density sheet charge at the heterojunction. High electron mobility transistor (HEMT) devices fabricated on these layer stacks are depletion mode (normally-on) devices with a negative threshold voltage. However, normally-on devices are not preferred in power applications due to safety reasons and to reduce the external circuitry. Therefore, the development of an enhancement mode (normally-off) GaN based high electron mobility transistors (HEMT) with positive threshold voltage is important for next generation power devices. Several methods, such as growing a p-GaN on the barrier layer, recessed gate by dry etching, plasma treatment under the gate have been previously studied to develop enhancement-mode HEMT devices. In this study, MOS-HEMT devices were fabricated by selective thermal oxidation of InAlN to reduce InAlN barrier thickness under the gate contact. The thermal oxidation of InAlN occurs at temperatures above 600°C, while GaN oxidation occurs above 1000°C at a slow rate which allows the decrease of the InAlN barrier layer thickness under the gate in a reliable way due to the self-limiting nature of oxidation. A positive shift in the threshold voltage and a reduction in reverse leakage current was demonstrated on MOS-diode structures by thermally oxidizing InAlN layers with In composition of 0.17, 0.178 and 0.255 for increasing oxidation durations at 700°C and 800°C. Enhancement mode device operation was demonstrated on lattice matched InAlN/AlN/GaN/Sapphire MOS-HEMT devices by selective thermal oxidation of InAlN layer under the gate contact. A positive threshold voltage was observed for devices which were subjected to thermal oxidation at 700°C for 10, 30 and 60 minutes. The highest threshold voltage was observed as 1.16 V for the device that was oxidized for 30 minutes at 700°C. The maximum transconductance and the maximum drain saturation current of this device was 4.27 mS/mm and 150 mA/mm, respectively.

Power Electronics Device Applications Of Diamond Semiconductors

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Author : Satoshi Koizumi
language : en
Publisher: Woodhead Publishing
Release Date : 2018-06-29

Power Electronics Device Applications Of Diamond Semiconductors written by Satoshi Koizumi and has been published by Woodhead Publishing this book supported file pdf, txt, epub, kindle and other format this book has been release on 2018-06-29 with Technology & Engineering categories.

Power Electronics Device Applications of Diamond Semiconductors presents state-of-the-art research on diamond growth, doping, device processing, theoretical modeling and device performance. The book begins with a comprehensive and close examination of diamond crystal growth from the vapor phase for epitaxial diamond and wafer preparation. It looks at single crystal vapor deposition (CVD) growth sectors and defect control, ultra high purity SC-CVD, SC diamond wafer CVD, heteroepitaxy on Ir/MqO and needle-induced large area growth, also discussing the latest doping and semiconductor characterization methods, fundamental material properties and device physics. The book concludes with a discussion of circuits and applications, featuring the switching behavior of diamond devices and applications, high frequency and high temperature operation, and potential applications of diamond semiconductors for high voltage devices. Includes contributions from today's most respected researchers who present the latest results for diamond growth, doping, device fabrication, theoretical modeling and device performance Examines why diamond semiconductors could lead to superior power electronics Discusses the main challenges to device realization and the best opportunities for the next generation of power electronics

The Physics Of Semiconductor Devices

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Author : R. K. Sharma
language : en
Publisher: Springer
Release Date : 2019-01-31

The Physics Of Semiconductor Devices written by R. K. Sharma and has been published by Springer this book supported file pdf, txt, epub, kindle and other format this book has been release on 2019-01-31 with Technology & Engineering categories.

This book disseminates the current knowledge of semiconductor physics and its applications across the scientific community. It is based on a biennial workshop that provides the participating research groups with a stimulating platform for interaction and collaboration with colleagues from the same scientific community. The book discusses the latest developments in the field of III-nitrides; materials & devices, compound semiconductors, VLSI technology, optoelectronics, sensors, photovoltaics, crystal growth, epitaxy and characterization, graphene and other 2D materials and organic semiconductors.