Cai J, King J, Liu J, Wang J, Sun L.
Large-signal behavioral model for radio frequency power transistors
Large-signal behavioral model for radio frequency power transistors
based on modified canonical sectionwise piecewise-linear functions
IJNM 2020;e2767
DOI: 10.1002/jnm.2767
DOI: 10.1002/jnm.2767
Abstract: A novel, large-signal behavioral modeling methodology for radio frequency power transistors, based on the modified canonical sectionwise piecewiselinear (CSWPL) functions, is presented in this article. The basic theory of the proposed model is provided. Compared with the existing standard CSWPL model, the proposed model provides superior prediction capabilities for a reasonable increase in model complexity. Model verification is performed through comparisons with simulated and experimental data of a 10 W GaN HEMT device at mild and severe mismatch conditions, across a wide range of input power levels. The models can predict, more accurately, both the fundamental and the second harmonic scattered waves compared with the standard CSWPL model.
Fig: Comparison between circuit, CSWPL model, and proposed modified CSWPL model, when the available input power is 5dBm, the number of partitions K=J=3, and the number of Fourier terms L=3
Correspondence: Jialin Cai, The Key Laboratory of RF Circuit and System, Ministry of Education, Hangzhou Dianzi University, Hangzhou, CN