基于fpga的功放线性化数字预失真系统建模与设计方法

2016 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE) Pub Date : 2016-11-01 DOI:10.1109/ICMEAE.2016.029

S. A. Juarez-Cazares, A. Meléndez-Cano, J. R. Cárdenas-Valdez, J. A. Galaviz-Aguilar, C. E. Vázquez-López, P. Roblin, J. Nuñez-Perez

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引用次数: 6

摘要

本文介绍了一个完整的数字预失真系统的设计方法，使功率放大器线性化。该系统采用记忆多项式模型实现。通过使用10mhz频段的LTE载波信号验证了线性化的性能。该集成解决方案能够通过测量AM/AM和AM/PM转换曲线对任何实际功率放大器进行线性化。此外，该开发试验台能够预测预失真器的性能，便于预失真器的设计分析。实验结果采用DSP- fpga实现，利用DSP Builder工具获取VHDL硬件描述。该模型显示，NXP 10W功率放大器的无杂散动态范围为50 dBm，相邻通道功率比降低25 dBc。

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FPGA-Based Modeling and Design Methodology of a Digital Pre-distortion System for Power Amplifier Linearization

This paper presents the design methodology of a complete digital pre-distortion system that enables the power amplifier linearization. This system employs the memory polynomial model for its realization. The performance of the linearization is validated by using an LTE carrier signal in the band of 10 MHz. This integrated solution is capable of linearizing any real power amplifier from measurements of AM/AM and AM/PM conversion curves. Furthermore, this development test bed is able to predict the behavior and facilitates the design analysis of a pre-distorter. The experimental results are implemented employing a DSP-FPGA by using DSP Builder tool to obtain the VHDL hardware description. The proposed model shows a spurious-free dynamic range of 50 dBm and an adjacent channel power ratio reduction of 25 dBc for the NXP 10W power amplifier.

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2016 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE)

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