Mechanism Study of Gate Leakage Current for AlGaN/GaN High Electron Mobility Transistor Structure Under High Reverse Bias by Thin Surface Barrier Model and Technology Computer Aided Design Simulation
スポンサーリンク
概要
- 論文の詳細を見る
Gate leakage current mechanism in GaN high electron mobility transistors (HEMTs) has been studied using a two-dimensional thin surface barrier (TSB) model to represent two unintentional donor thin layers that exit under and outside the gate electrode due to the existence of surface defects. The donor thin layer outside the gate affects the reverse gate current at the high gate voltage above the pinch-off voltage. Higher donor concentration of thin layer outside the gate results in larger ratio of lateral to vertical components of the electric field at the gate edge. On the other hand, the electric field at the center of the gate has only the vertical electric field component. As a result, the two-dimensional effects are only important for the reverse gate current above the pinch-off voltage. We have confirmed in this paper that the simulation results provided by our model correlate very well with the experimental reverse gate current characteristics of the device for a very wide range of reverse gate voltage from 0.1 to 90 V.
- 2013-04-25
著者
-
NAKAYAMA Masatoshi
Information Technology R & D Center, Mitsubishi Electric Corporation
-
Oishi Toshiyuki
Information Technology R&d Center Mitsubishi Electric Corporation
-
Miyamoto Yasuyuki
Department Of Electrical And Electronic Engineering
-
Yamanaka Koji
Information Technology R&d Center
-
Hayashi Kazuo
Information Technology R&D Center, Mitsubishi Electric Corporation, Kamakura, Kanagawa 247-8501, Japan
-
Miyamoto Yasuyuki
Department of Physical Electronics, Tokyo Institute of Technology, Meguro, Tokyo 152-8552, Japan
-
Yamaguchi Yutaro
Information Technology R&D Center, Mitsubishi Electric Corporation, Kamakura, Kanagawa 247-8501, Japan
-
Otsuka Hiroshi
Information Technology R&D Center, Mitsubishi Electric Corporation, Kamakura, Kanagawa 247-8501, Japan
-
Hayashi Kazuo
Information Technology R&D Center, Mitsubishi Electric Corporation, Kamakura, Kanagawa 247-8501, Japan
-
Otsuka Hiroshi
Information Technology R&D Center, Mitsubishi Electric Corporation, Kamakura, Kanagawa 247-8501, Japan
-
Oishi Toshiyuki
Information Technology R&D Center, Mitsubishi Electric Corporation, Kamakura, Kanagawa 247-8501, Japan
関連論文
- 2周波ウィルキンソン分配器を用いた反射波吸収型帯域阻止フィルタ : 回路合成理論に基づくウィルキンソン分配器設計ツールの開発事例(MSTセッション)
- C-Ku帯GaN HEMT 3倍帯域高効率高出力増幅器(マイクロ波フォトニクス技術,一般)
- 2周波ウィルキンソン分配器を用いた反射波吸収型帯域阻止フィルタ : 回路合成理論に基づくウィルキンソン分配器設計ツールの開発事例
- C-2-102 高速移動体通信システム用ミリ波モジュール(C-2.マイクロ波C(マイクロ波・ミリ波応用装置),一般セッション)
- C-Ku帯GaN HEMT 3倍帯域高効率高出力増幅器
- C-2-33 GaN HEMTの半物理的な非線形モデルの提案(C-2.マイクロ波A(マイクロ波・ミリ波能動デバイス),一般セッション)
- C-2-22 対向インラインスタブを用いた高調波処理による内部整合FETの高効率化(C-2.マイクロ波A(マイクロ波・ミリ波能動デバイス),一般セッション)
- C-2-2 固有伝送モードを用いた大信号発振解析法(C-2.マイクロ波A(マイクロ波・ミリ波能動デバイス),一般セッション)
- 2周波ウィルキンソン分配器を用いた反射波吸収型帯域阻止フィルタ : 回路合成理論に基づくウィルキンソン分配器設計ツールの開発事例(MSTセッション)
- CI-1-8 ミリ波高速移動体通信用チップセット(依頼シンポジウム,CI-1.高速ミリ波無線通信用デバイス・IC技術の現状と展望,ソサイエティ企画)
- C-10-4 GaN HEMTにおけるGaNバッファ層中トラップの解析(C-10.電子デバイス,一般セッション)
- C-2-38 動的負荷線測定に基づいたGaN HEMT大信号モデル(C-2.マイクロ波A(マイクロ波・ミリ波能動デバイス),一般セッション)
- C-2-37 C-Ku帯GaN HEMT 3倍帯域高効率高出力増幅器(C-2.マイクロ波A(マイクロ波・ミリ波能動デバイス),一般セッション)
- In-plane Orientation and Coincidence Site Lattice Relation of Bi_2Sr_2CaCu_2O_x Thin Films Formed on Highly Mismatched (001) YAG Substrates
- Fabrication of Ultrafine X-Ray Mask Using Precise Crystal Growth Technique
- Reactive Ion Etching of BiSrCaCuO Superconducting Thin Films using Ethane and Oxygen
- Effect of Ethane Addition to Argon in Etching of BiSrCaCuO Superconducting Thin Films
- High-performance and reliable InP/InGaAs HBTs operating at high current density (Electron devices: 第15回先端半導体デバイスの基礎と応用に関するアジア・太平洋ワークショップ(AWAD2007))
- High-performance and reliable InP/InGaAs HBTs operating at high current density (Silicon devices and materials: 第15回先端半導体デバイスの基礎と応用に関するアジア・太平洋ワークショップ(AWAD2007))
- Light Emission from Quantum-Box Structure by Current Injection
- Drivability Enhancement for AlGaN/GaN High-Electron Mobility Transistors with AlN Spacer Layer Using Si Ion Implantation Doping
- First Operation of AlGaN Channel High Electron Mobility Transistors with Sufficiently Low Resistive Source/Drain Contact formed by Si Ion Implantation
- High-Quality n-GaInAs Grown by OMVPE Using Si_2H_6 by High-Velocity Flow
- Estimation of Collector Current Spreading in InGaAs SHBT Having 75-nm-Thick Collector
- Current Gain and Voltage Gain in Hot Electron Transistors without Base Layer(THz Devices,Heterostructure Microelectronics with TWHM2005)
- Wrapped Alignment Marks for Fabrication of Interference/Diffraction Hot Electron Devices
- W/Cr/Au/SiO_2 Composite Alignment Mark for Fabrication of Interference/Diffraction Hot Electron Devices
- Nanostrueture Alignment for Hot Electron Interference/Diffraction Devices
- Ultrafine Fabrication Technique for Hot Electron Interference/Diffraction Devices
- Efficiency Enhancement of a Digital Predistortion Doherty Amplifier Transmitter Using a Virtual Open Stub Technique(Active Devices/Circuits,Microwave and Millimeter-Wave Technology)
- Feedforward Power Amplifier Control Method Using Weight Divided Adaptive Algorithm(Special Issue on Microwave and Millimeter Wave Technology)
- A High Efficiency Bias Condition Optimized Feedforward Power Amplifier with a Series Diode Linearizer(Special Issue on Low-Distortion, High-Power, High-Efficiency Active Device and Circuit Technology)
- A Distortion Analysis Method for FET Amplifiers Using Novel Frequency-Dependent Complex Power Series Model (Special Issue on Low Distortion Technology for Microwave Devices and Circuits)
- A 1.9GHz Single-Chip RF Front-End GaAs MMIC with Low-Distortion Cascode FET Mixer (Special Issue on Low Distortion Technology for Microwave Devices and Circuits)
- Improvement of Adjacent Channel Leakage Power and Intermodulation Distortion by Using a GaAs FET Linearizer with a Large Source Inductance (Special Issue on Microwave and Millimeterwave High-power Devices)
- Effect of Spacer Layer Thickness on Energy Level Width Narrowing in GaInAs/InP Resonant Tunneling Diodes Grown by Organo-Metallic Vapor Phase Epitaxy
- Transport Anisotropy of Si Delta-Doped Layer in InP Grown by OMVPE
- A New GaAs Negative Voltage Generator for a Power Amplifier Applied to a Single-Chip T/R-MMIC Front-End
- A Dual-Gate Complementary Metal-Oxide-Semiconductor Technology with Novel Self-Aligned Pocket Implantation which Takes Advantage of Elevated Source/Drain Configurations
- Self-Aligned Pocket Implantation into Elevated Source/Drain MOSFETs for Reduction of Junction Capacitance and Leakage Current
- Advantage of Shallow Trench Isolation over Local Oxidation of Silicon on Alignment Tolerance
- Noticeable Enhancement of Edge Effect in Short Channel Characteristics of Trench-Isolated MOSFETs
- Anomalous Gate Length Dependence of Threshold Voltage of Trench-Isolated Metal Oxide Semiconductor Field Effect Transistors
- Narrow-Channel Metal Oxide Semiconductor Field Effect Transistor (MOSFET)Isolated by an Ultra-Fine Trench
- Theoretical Gain of Quantum-Well Wire Lasers
- Febrication of InP/GaInAs Double Heterojunction Bipolar Transistors with a 0.1-μm-Wide Emitter : Semiconductors
- Reduction of Base-Collector Capacitance inSubmicron InP/GalnAs Heterojunction Bipolar Transistors with Buried Tungsten Wires : Semiconductors
- Peak Width Analysis of Current-Voltage Characteristics of Triple-Barrier Resonant Tunneling Diodes
- First Fabrication of GaInAs/InP Buried Metal Heterojunction Bipolar Transistor and Reduction of Base-Collector Capacitance
- Characterization of GaInAs/InP Triple-Barrier Resonant Tunneling Diodes Grown by Organo-Metallic Vapor Phase Epitaxy for High-Temperature Estimation of Phase Coherent Length of Electrons
- Seventy-nm-Pitch Patterning on CaF_2 by e-beam Exposure
- High Temperature Estimation of Phase Coherent Length of Hot Electron Using GaInAs/InP Triple-Barrier Resonant Tunneling Diodes Grown by OMVPE
- Monolayer Steps Formation in InP and GaInAs by OMVPE and Reduction of Resonant Energy Width in GaInAs/InP RTDs
- Electrical Properties of 100 nm Pitch Cr/Au Fine Electrodes with 40 nm Width on GaInAs
- Fabrication of Vertical InGaAs Channel Metal-Insulator-Semiconductor Field Effect Transistor with a 15-nm-Wide Mesa Structure and a Drain Current Density of 7MA/cm^2
- 招待講演 InGaAs/InP MISFET with epitaxially grown source (Silicon devices and materials)
- 招待講演 InGaAs/InP MISFET with epitaxially grown source (Electron devices)
- Crystal Growth of InP on a Gd_3Ga_5O_ Substrate by Organometallic Chemical Vapor Deposition
- GaInAs/InP Hot Electron Transistors Grown by OMVPE
- Estimation of Phase Coherent Length of Hot Electrons in GaInAs Using Resonant Tunneling Diodes
- GaInAsP/InP Single Quantum-Well Lasers by OMVPE
- Conditions for OMVPE Growth of GaInAsP/InP Crystal
- Vertical InGaAs Channel Metal--Insulator--Semiconductor Field Effect Transistor with High Current Density
- Flip-Chip Packaging of Low-Noise Metamorphic High Electron Mobility Transistors on Low-Cost Organic Substrate
- Estimation of collector current spreading in InGaAs SHBT having 75-nm-thick collector
- Estimation of collector current spreading in InGaAs SHBT having 75-nm-thick collector
- Improvement of Regrown Interface in InP Organo-Metallic Vapor Phase Epitaxy
- Effects of Low-Oxygen-Content Metalorganic Precursors on AlInAs and High Electron Mobility Transistor Structures with the Thick AlInAs Buffer Layer
- InP/InGaAs Composite Metal-Oxide-Semiconductor Field-Effect Transistors with Regrown Source and Al_2O_3 Gate Dielectric Exhibiting Maximum Drain Current Exceeding 1.3mA/μm
- Wet Chemical Etching for Ultrafine Periodic Structure : Rectangular InP Corrugations of 70 nm Pitch and 100 nm Depth : Etching and Deposition Technology
- Observation of InP Surfaces after (NH_4)_2S_x Treatment by a Scanning Tunneling Microscope
- Numerical Analysis of the Effect of P-Regions on the I-V Kink in GaAs MESFETs(Semiconductor Materials and Devices)
- Influence of Impurities on the Performance of Doped-Well GaInAs/InP Resonant Tunneling Diodes
- High Peak-to-Valley Current Ratio GaInAs/GaInP Resonant Tunneling Diodes
- Improvement of Organometallic Vapor Phase Epitaxy Regrown GaInAs/InP Heterointerface by Surface Treatment
- InAs High Electron Mobility Transistors with Buried Gate for Ultralow-Power-Consumption Low-Noise Amplifier Application
- Reduction of Output Conductance in Vertical InGaAs Channel Metal-Insulator-Semiconductor Field-Effect Transistor Using Heavily Doped Drain Region
- Fabrication of InP/InGaAs SHBT on Si Substrate by Using Transferred Substrate Process
- Bias-Dependent Radio Frequency Performance for 40 nm InAs High-Electron-Mobility Transistor with a Cutoff Frequency Higher than 600 GHz
- InP Hot Electron Transistors with Emitter Mesa Fabricated between Gate Electrodes for Reduction in Emitter-Gate Gate-Leakage Current
- Reduction of Base-Collector Capacitance in InP/InGaAs DHBT with Buried SiO_2 Wires
- DC and RF Performance Improvement of 70 nm Quantum Well Field Effect Transistor by Narrowing Source–Drain Spacing Technology
- High-Performance In0.52Al0.48As/In0.6Ga0.4As Power Metamorphic High Electron Mobility Transistor for Ka-Band Applications
- Observation of Current Modulation through Self-Assembled Monolayer Molecule in Transistor Structure
- Increase in Collector Current in Hot-Electron Transistors Controlled by Gate Bias
- Monte Carlo Analysis of Base Transit Times of InP/GaInAs Heterojunction Bipolar Transistors with Ultrathin Graded Bases
- InP Hot Electron Transistors with a Buried Metal Gate
- Fabrication of GaInAs/InP Heterojunction Bipolar Transistors with a Single Tungsten Wire as Collector Electrode
- InP/InGaAs Hot Electron Transistors with Insulated Gate
- Design and Simulation of Hot-Electron Diffraction Observation Using Scanning Probe: Quantitative Evaluation of Observation Possibility
- High Open-Circuit Voltage Gain in Vertical InGaAs Channel Metal--Insulator--Semiconductor Field-Effect Transistor Using Heavily Doped Drain Region and Narrow Channel Mesa
- InAs Thin-Channel High-Electron-Mobility Transistors with Very High Current-Gain Cutoff Frequency for Emerging Submillimeter-Wave Applications
- Mechanism Study of Gate Leakage Current for AlGaN/GaN High Electron Mobility Transistor Structure Under High Reverse Bias by Thin Surface Barrier Model and Technology Computer Aided Design Simulation
- Wet Chemical Etching for Ultrafine Periodic Structure: Rectangular InP Corrugations of 70 nm Pitch and 100 nm Depth
- Analysis of On-State Gate Current of AlGaN/GaN High-Electron-Mobility Transistor under Electrical and Thermal Stresses
- Improvement in Gate Insulation in InP Hot Electron Transistors for High Transconductance and High Voltage Gain
- High Open-Circuit Voltage Gain in Vertical InGaAs Channel Metal-Insulator-Semiconductor Field-Effect Transistor Using Heavily Doped Drain Region and Narrow Channel Mesa (Special Issue : Solid State Devices and Materials)
- Reduction of Base-Collector Capacitance in InP/InGaAs DHBT with Buried SiO2 Wires
- InAs Thin-Channel High-Electron-Mobility Transistors with Very High Current-Gain Cutoff Frequency for Emerging Submillimeter-Wave Applications
- InAs Thin-Channel High-Electron-Mobility Transistors with Very High Current-Gain Cutoff Frequency for Emerging Submillimeter-Wave Applications