论文信息 - Active harmonic load-pull system for characterizing highly mismatched high power transistors

Active harmonic load-pull system for characterizing highly mismatched high power transistors

High-power devices (>30W) require low load impedances (<5?) for optimum power performance. In presenting the necessary fundamental and harmonic impedances, traditional passive load-pull systems are restricted by inherent system losses. Active load-pull can compensate for this problem, but unfortunately does not scale well with high power applications. This paper presents a novel solution allowing harmonic load-pull characterization of high-power devices. Broadband impedance transformers allow the necessary load-pull power to be dramatically reduced whilst maintaining the accuracy and integrity of measured waveforms. This approach has been successfully demonstrated through the measurement of a 30W LDMOS device, where the required active load-pull power required to present the optimum load has been reduced from 270W to 50W.

J. Benedikt | Z. Aboush | J. Lees | P. Tasker

[1] Paul J. Tasker,et al. High power time domain measurement system with active harmonic load-pull for high efficiency base station amplifier design , 2000, IMS 2000.

[2] J. Benedikt,et al. High power harmonic active load-pull using broadband impedance transformers [power transistor measurement] , 2004, High Frequency Postgraduate Student Colloquium, 2004.

[3] Y. Takayama. A New Load-Pull Characterization Method for Microwave Power Transistors , 1976 .

[4] Philippe Bouysse,et al. A novel, accurate load-pull setup allowing the characterization of highly mismatched power transistors , 1994 .

[5] R. Klopfenstein. A Transmission Line Taper of Improved Design , 1956, Proceedings of the IRE.

[6] J. Benedikt,et al. High-power time-domain measurement bench for power amplifier development , 2002, 60th ARFTG Conference Digest, Fall 2002..

[7] John F. Sevic. A Sub 1 Ω Load-Pull Quarter-Wave Pre-Matching Network Based on a Two-Tier TRL Calibration , 1998, 52nd ARFTG Conference Digest.