High-speed device characterization using an active load-pull system and waveform engineering postulator

77th ARFTG Microwave Measurement Conference Pub Date : 2011-06-01 DOI:10.1109/ARFTG77.2011.6034553

V. Carrubba, A. L. Clarke, S. Woodington, W. McGenn, Muhammad Akmal, A. Almuhaisen, J. Lees, S. Cripps, P. Tasker, J. Benedikt

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引用次数: 2

Abstract

This paper presents a methodology that provides rapid estimation of the parameters necessary for the high-speed characterization of transistor devices used in modern microwave power amplifiers. The key in achieving this significant measurement speed improvement is the use of a systematic waveform postulation methodology in combination with an active harmonic load-pull measurement system. The methodology is based on a rapid and systematic procedure that initially requires only a few DC measurement parameters to approximate the device's transfer characteristic and boundary conditions. Using these parameters, it is then possible to accurately estimate or ‘postulate’ the idealized output current and voltage waveforms, in this case for a three harmonic Class-F mode. These waveforms are rich in information and provide harmonic load impedances as well as other key postulated parameters that can then be used to ‘guide’ the harmonic active load-pull measurement system resulting in a very time-efficient characterization process.

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使用主动负载-牵引系统和波形工程假设器的高速器件特性

本文提出了一种方法，为现代微波功率放大器中使用的晶体管器件的高速表征提供了必要参数的快速估计。实现这种显著的测量速度提高的关键是使用系统的波形假设方法与有源谐波负载-拉力测量系统相结合。该方法基于快速和系统的程序，最初只需要几个直流测量参数来近似器件的传输特性和边界条件。使用这些参数，就可以准确地估计或“假设”理想的输出电流和电压波形，在这种情况下是三谐波f类模式。这些波形信息丰富，提供谐波负载阻抗以及其他关键假设参数，然后可用于“指导”谐波有源负载-拉力测量系统，从而实现非常省时的表征过程。

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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77th ARFTG Microwave Measurement Conference

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