利用人工神经网络预测动态功率放大器非线性的新型数字预失真系数技术

0 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE microwave and wireless technology letters Pub Date : 2024-08-12 DOI:10.1109/LMWT.2024.3433484

Yufeng Zhang;Qingyue Chen;Kun Gao;Xin Liu;Wenhua Chen;Haigang Feng;Zhenghe Feng;Fadhel M. Ghannouchi

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引用次数: 0

摘要

本文介绍了一种基于人工神经网络（ANN）的新型数字预失真（DPD）系数预测（ANN-DPDCP）技术，用于处理功率放大器（PA）输入功率水平变化引起的动态非线性问题。传统的 DPD 技术在有效缓解动态非线性方面面临挑战。ANN-DPDCP 技术通过使用 ANN 对基于 Volterra 的传统 DPD 系数的变化进行建模和预测，可根据目标输入功率电平快速提供适当的 DPD 系数。得益于其简洁的训练数据集和拟合能力，ANN-DPDCP 技术只需有限的存储资源，就能在任意输入功率水平下推导出 DPD 系数，且延迟可忽略不计，线性化性能相当。在一个由 100 和 400 MHz 信号驱动、输入功率范围为 12 dBm 的 Ka 波段功率放大器上进行的实验表明，400 MHz 和 100 MHz 的存储资源分别减少了 99.54% 和 99.81%。

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A Novel Digital Predistortion Coefficients Prediction Technique for Dynamic PA Nonlinearities Using Artificial Neural Networks

This article presents a novel artificial neural network (ANN)-based digital predistortion (DPD) coefficients prediction (ANN-DPDCP) technique for dynamic nonlinearities induced by varying input power levels of power amplifiers (PAs). Conventional DPD techniques face challenges in mitigating dynamic nonlinearities efficiently. By modeling and predicting variations of conventional Volterra-based DPD coefficients using ANNs, the ANN-DPDCP technique rapidly provides appropriate DPD coefficients based on the target input power level. Benefiting from its concise training dataset and fitting capability, the ANN-DPDCP technique requires limited storage resources and derives DPD coefficients at arbitrary input power levels with negligible delay and comparable linearization performance. Experiments on a Ka-band PA driven by 100- and 400-MHz signals with a 12-dBm input power range illustrate storage resource reductions of 99.54% for 400 MHz and 99.81% for 100 MHz.

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