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    • 2. 发明授权
    • Semi-physical modeling of HEMT high frequency small signal equivalent circuit models
    • HEMT高频小信号等效电路模型的半物理建模
    • US06772400B2
    • 2004-08-03
    • US09840600
    • 2001-04-23
    • Roger S. Tsai
    • Roger S. Tsai
    • G06F1750
    • G06F17/5036
    • A semi-physical device model for HEMTs that can represent known physical device characteristics and measured high frequency small signal characteristics relatively accurately. The semi-physical device model in accordance with the present invention uses analytical expressions to model the fundamental electric charge and field structure of a HEMT internal structure. These expressions are based on the device physics but are in empirical form. In this way, the model is able to maintain physical dependency with good fidelity while retaining accurate measured-to-modeled DC and small signal characteristics. The model in accordance with the present invention provides model elements for a standard small signal equivalent circuit model of FET. The model elements are derived from small signal excitation analysis of intrinsic charge and electric field as modeled within the device by the semi-physical HEMT model. As such, the RF performance can be predicted at arbitrary bias points.
    • 用于HEMT的半物理器件模型,可以相对准确地表示已知的物理器件特性和测量的高频小信号特性。 根据本发明的半物理设备模型使用解析表达式来模拟HEMT内部结构的基本电荷和场结构。 这些表达式基于器件物理学,但是以经验形式。 以这种方式,该模型能够保持良好的保真度的物理依赖性,同时保持精确的测量到模型的DC和小信号特征。 根据本发明的模型提供了用于FET的标准小信号等效电路模型的模型元件。 模型元素来源于通过半物理HEMT模型在器件内建模的固有电荷和电场的小信号激发分析。 因此,RF性能可以在任意偏置点预测。
    • 5. 发明授权
    • Hybrid semi-physical and data fitting HEMT modeling approach for large signal and non-linear microwave/millimeter wave circuit CAD
    • 用于大信号和非线性微波/毫米波电路CAD的混合半物理和数据拟合HEMT建模方法
    • US06711723B2
    • 2004-03-23
    • US09840561
    • 2001-04-23
    • Roger S. TsaiYaochung Chen
    • Roger S. TsaiYaochung Chen
    • G06F1750
    • G06F17/5036G01R31/28G01R31/316
    • A hybrid model formed from a semi-physical device model along with an accurate data-fitting model in order to implement a relatively accurate physical device model as a large signal microwave circuit computer-aided design (CAD) tool. The semi-physical device model enables accurate representation of known physical device characteristics and measured bias-dependent characteristics. This model is used to accurately simulate the effect of process variation and environmental changes on bias-dependent characteristics. The data-fitting model is used to model these characteristics with relatively good fidelity. The expressions of the model are constructed to be charge conservative. As such, the model is computationally robust within the harmonic balance algorithms employed by known large signal microwave circuit CAD tools.
    • 由半物理设备模型形成的混合模型以及精确的数据拟合模型,以实现相对准确的物理设备模型作为大信号微波电路计算机辅助设计(CAD)工具。 半物理器件模型能够精确表示已知的物理器件特性和测量的偏置相关特性。 该模型用于准确模拟过程变化和环境变化对偏置依赖特征的影响。 数据拟合模型用于以较好的保真度对这些特征进行建模。 模型的表达被构造为电荷保守。 因此,该模型在已知的大信号微波电路CAD工具采用的谐波平衡算法中是计算稳健的。