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

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.