Systematic evaluation of PHEMT large signal characteristics using time domain measurements

2000 High Frequency Postgraduate Student Colloquium (Cat. No.00TH8539) Pub Date : 2000-09-07 DOI:10.1109/HFPSC.2000.874088

D. G. Morgan, P. Tasker, G. Edwards, A. Phillips

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Abstract

The complete Pseudomorphic High Electron Mobility Transistor (PHEMT) gate and drain RF I-V contours are systematically and accurately characterised for use in table based or table-equation based nonlinear CAD (Computer Aided Design) models. Waveform measurements are achieved using a fully vector error corrected, time domain nonlinear vector network analyser system, based on the HP-MTA (Microwave Transition Analyser). The technique is established around a simple mathematically proven harmonic compression concept. A fixed harmonic condition is set-up and maintained throughout the drain scan duration, such that the observed dynamic loadline saturates to the given condition symmetrically about the DC quiescent point. Measurement analysis yields numerical and also first order observational information about the Imax/sub RF/ and Imin/sub RF/ boundaries yielding directly effects such as soft breakdown, knee voltage, thermal roll off, and RF to DC related issues. Ensuing work indicates the extraction of totally dynamic RF I-V and RF Q-V contours, directly from large signal measurements.

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利用时域测量系统评价PHEMT大信号特性

完整的伪晶高电子迁移率晶体管(PHEMT)栅极和漏极射频I-V轮廓被系统和准确地表征，用于基于表格或基于表格方程的非线性CAD(计算机辅助设计)模型。波形测量使用全矢量误差校正，时域非线性矢量网络分析仪系统，基于HP-MTA(微波转换分析仪)。该技术是建立在一个简单的数学证明谐波压缩的概念。在漏极扫描持续时间内，设置并保持一个固定的谐波条件，使观察到的动态负载线在直流静点处对称地饱和到给定条件。测量分析产生了关于Imax/sub RF/和Imin/sub RF/边界的数值和一阶观测信息，这些信息产生了软击穿、膝电压、热滚降和RF到DC相关问题等直接影响。随后的工作表明，直接从大信号测量中提取完全动态的RF I-V和RF Q-V轮廓。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2000 High Frequency Postgraduate Student Colloquium (Cat. No.00TH8539)

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