J. Upshur, C. White, M. E. Bayne, B. Davis, L. Walker, M. Reece, W. L. Thompson, S. Cheng, R. Wallis
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引用次数: 1
摘要
本文介绍了微波场效应管器件神经网络建模的最新进展。通过将预测的负载-拉力性能与自动化谐波负载-拉力系统的测量结果进行比较,证明了自适应知识神经网络(AKBNN)模型提高了精度。测试器件为1.2 mm HFET,测量频率为2.2 GHz, 4.8 mm pHEMT测量频率为8.4 GHz。模型与测量值的比较包括在基频和二、三次谐波频率调谐下的功率增加效率和输出功率。讨论了该建模方法对设计工作在e类或f类模式下的高效功率放大器的有效性。
Advanced non-linear model for accurate prediction of harmonically terminated power amplifier performance
This paper presents recent advances in the state-of-the-art of neural network modeling of microwave FET devices. Enhanced accuracy of the adaptive knowledge-based neural network (AKBNN) model is shown by comparing predicted load-pull performance of the device to measurements in an automated harmonic load-pull system. Test devices are a 1.2 mm HFET measured at 2.2 GHz, and a 4.8 mm pHEMT at 8.4 GHz. Modeled versus measured comparisons include power-added efficiency and output power under fundamental frequency and second and third harmonic frequency tuning. The effectiveness of this modeling approach for the design of high-efficiency power amplifiers operating in Class-E or Class-F modes is discussed.
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