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An Improved Empirical Large-Signal Model for High-Power GaN HEMTs Including Self-Heating and Charge-Trapping Effects

机译：一种改进的高功率GaN HEMT的经验大信号模型，包括自加热和电荷捕获效果

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A new empirical large-signal model for high-power GaN HEMTs utilizing an improved drain current (Ids) model is presented. The new Ids formulation accurately predicts the asymmetric bell-shaped transconductance (gm) over a large drain-source bias range which is crucial in modeling high-power GaN HEMTs. A method of utilizing a combination of pulsed-gate (PGIV) and pulsed-gate-and-drain (PIV) IV measurements to characterize the dispersive behavior of GaN HEMT nonlinear Ids characteristics is developed. Dispersion due to self heating is modeled by modifying Ids parameters as a function of the temperature change and drain-source bias. Dispersion due to trapping is modeled using an effective gate-source voltage model. Accurate predictions of the RF small-signal and large-signal performance are demonstrated for two quiescent biases.

机译：提出了一种利用改进的漏极电流（IDS）模型的高功率GaN Hemts的新经验大信号模型。新的IDS制剂在大型漏极 - 源极偏置范围内精确地预测了非对称钟形跨导（GM），这在建模高功率GaN Hemts中至关重要。开发了一种利用脉冲栅极（PGIV）和脉冲 - 栅极和漏极（PIV）IV测量的组合来表征GaN HEMT非线性IDS特征的分散行为的方法。通过根据温度变化和漏极源极偏置的函数来修改IDS参数，通过自加热引起的分散。由于捕获引起的分散是使用有效栅极源电压模型进行建模的。对于两个静态偏差，对RF小信号和大信号性能进行了准确的预测。

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《IEEE/MTT-S International Microwave Symposium》|2009年||共4页
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作者
Kelvin Yuk; G. R. Brainier; David McQuate;
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中图分类 TN015-53;
关键词
Gallium Nitride; AlGaN/GaN; GaN; HEMT; Model; High power; Large-signal;

机译：氮化镓;Algan / GaN;GaN;HEMT;型号;高功率;大信号;

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专利

1. A parameter extraction method for GaN HEMT empirical large-signal model including self-heating and trapping effects [J] . Wen Zhang, Xu Yuehang, Wang Changsi, International journal of numerical modelling . 2017,第1期

机译：具有自热和俘获效应的GaN HEMT经验大信号模型参数提取方法
2. An Electrothermal Model for Empirical Large- Signal Modeling of AlGaN/GaN HEMTs Including Self-Heating and Ambient Temperature Effects [J] . Changsi Wang, Yuehang Xu, Xuming Yu, Microwave Theory and Techniques, IEEE Transactions on . 2014,第12期

机译：AlGaN / GaN HEMT包括自热和环境温度影响的经验大信号建模的电热模型
3. A physical large-signal model for GaN HEMTS including self-heating and trap-related dispersion [J] . D. Mari, M. Bernardoni, G. Sozzi, Microelectronics reliability . 2011,第2期

机译：GaN HEMTS的物理大信号模型，包括自热和陷阱相关的色散
4. An improved empirical large-signal model for high-power GaN HEMTs including self-heating and charge-trapping effects [C] . Yuk K., Branner G.R., McQuate D. IEEE MTT-S International Microwave Symposium Digest;IMS 2009 . 2009

机译：改进的用于大功率GaN HEMT的经验大信号模型，包括自热和电荷陷阱效应
5. Study of Self-Heating Effects in GaN HEMTs. [D] . Chowdhury, Towhid. 2013

机译：GaN HEMT中的自热效应研究。
6. On the Modeling of the Donor/Acceptor Compensation Ratio in Carbon-Doped GaN to Univocally Reproduce Breakdown Voltage and Current Collapse in Lateral GaN Power HEMTs [O] . Nicolò Zagni, Alessandro Chini, Francesco Maria Puglisi, 2021

机译：关于碳掺杂GaN中供体/受体补偿比的建模在横向GaN功率Hemts中的单一再现击穿电压和电流塌陷
7. Large-Signal Modeling of GaN HEMTs Using Hybrid GA-ANN, PSO-SVR, and GPR-Based Approaches [O] . Anwar Jarndal, Saddam Husain, Mohammad Hashmi, 2021

机译：使用混合GA-ANN，PSO-SVR和基于GPR的方法的GaN Hemts大信号建模
8. Advanced Large-Signal Modeling of GaN-HEMTs. [R] . Berroth, M., Chigaeva, E., Dettmann, I., 2002

机译：GaN-HEmT的先进大信号建模。

An Improved Empirical Large-Signal Model for High-Power GaN HEMTs Including Self-Heating and Charge-Trapping Effects

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