基于模块化方法的射频功率放大器建模与预失真

P. Gilabert, D. Silveira, G. Montoro, G. Magerl
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引用次数: 3

摘要

本文介绍了一种近饱和微波功率放大器的黑盒建模方法,以及为其设计的模块化预失真模型的性能。输入信号采用16-QAM调制方案。由于黑盒识别过程是基于测量的输入/输出信号,放大器在低输入回退(IBO)下工作(接近压缩)所引起的非线性会改变输出星座,导致难以找到正确的模型参数。处理输入/输出测量数据的一部分以生成初始模型。然后利用伪逆技术求出一个简洁的Wiener模型,并与整个测量数据进行交叉验证。所提出的建模方法产生的模型具有数值鲁棒性,并且基于归一化均方误差(NMSE)优点值具有很高的识别率。一旦获得PA模型,通过间接学习方法(PA输入-输出测量数据)估计基于Hammerstein的预失真器(HPD)。仿真和实验结果表明,该HPD提高了线性度。根据相邻信道功率比(ACPR)和误差矢量幅度(EVM)减小来测量带内和带外失真补偿
本文章由计算机程序翻译,如有差异,请以英文原文为准。
RF-Power Amplifier Modeling and Predistortion Based on a Modular Approach
This paper presents the black-box modeling of a microwave power amplifier (PA) operating near saturation and the performance of a modular predistortion model designed for this PA. A 16-QAM modulation scheme has been used as input signal. Nonlinearities caused by the amplifier operating at low input back-off (IBO), that is close to compression, can change the output constellation and lead to difficulties in finding the correct model parameters since the black-box identification procedure is based on measured input/output signals. A segment of the input/output measurement data is processed to generate an initial model. Then pseudo-inverse techniques are used to find a parsimonious Wiener model that is cross-validated with the entire measurement data. The presented modeling approach results in a model intended to be numerically robust and having a high identification percentage based on the normalized mean squared error (NMSE) figure of merit. Once the PA model is obtained, a Hammerstein based predistorter (HPD) is estimated by means of the indirect learning approach (PA input-output measured data). Simulation and experimental results are provided in order to show linearity improvement achieved by this HPD. In band and out of band distortion compensation are measured in terms of adjacent channel power ratio (ACPR) and error vector magnitude (EVM) reduction
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