Jianjun Xu, Rob D. Jones, S. Harris, T. Nielsen, D. Root
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引用次数: 67
摘要
给出了现代氮化镓晶体管的完整非线性表征和建模流程。其特点包括基于NVNA的新型主动源注入波形测量硬件/软件系统,用于耦合电热和圈闭相关模型本构关系的扩展人工神经网络(ANN)训练基础设施,以及在商业模拟器中的本地实现。通过与雷神综合防御系统公司生产的先进毫米波150 nm 6×60μm GaN HFET的测量数据进行详细比较,验证了该模型。在非常广泛的偏置条件、复杂的负载、功率和频率下,在直流、s参数、谐波和互调失真以及负载-拉力参数方面取得了优异的结果。
Dynamic FET model - DynaFET - for GaN transistors from NVNA active source injection measurements
A complete nonlinear characterization and modeling flow for modern GaN transistors is presented. Features include a new active-source injection based waveform measurement HW/SW system built around an NVNA, an extended artificial neural network (ANN) training infrastructure for coupled electro-thermal and trap-dependent model constitutive relations, and the native implementation in a commercial simulator. The model is validated by detailed comparisons to measured data for an advanced mm-wave 150 nm 6×60μm GaN HFET manufactured by Raytheon Integrated Defense Systems. Excellent results are achieved for DC, S-parameters, harmonic and intermodulation distortion, and load-pull figures of merit, over a very wide range of bias conditions, complex loads, powers, and frequencies.
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