Model-Order Reduction of Multistage Cascaded Models for Digital Predistortion

IF 4.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2024-11-06 DOI:10.1109/JMW.2024.3483458

Raúl Criado;Wantao Li;William Thompson;Gabriel Montoro;Kevin Chuang;Pere L. Gilabert

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Abstract

This paper explores the benefits of utilizing multistage cascaded (CC) behavioral models for digital predistortion (DPD) linearization of wideband high-efficiency power amplifiers (PAs). To reduce the computational complexity of these multistage CC behavioral models, a model-order reduction technique based on a greedy algorithm is proposed. The advantages of employing CC DPD models with gradient descent parameter identification, as opposed to single-stage DPD models with least squares parameter identification, are extensively demonstrated and analyzed. The trade-off among linearity, power efficiency and computational complexity is evaluated considering the linearization of a high-efficiency pseudo-Doherty load-modulated balanced amplifier (PD-LMBA). Using the proposed pruning strategy for CC DPD models, we demonstrate a significant reduction in the number of parameters needed to linearize the PD-LMBA. The PA operates at an RF frequency of 2 GHz and delivers a mean output power of 40 dBm with an approximately 50% power efficiency when driven by 5G new radio signals with up to 200 MHz bandwidth and an 8 dB peak-to-average power ratio.

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减少数字预失真多级级联模型的模型阶数

本文探讨了利用多级级联（CC）行为模型对宽带高效功率放大器（pa）进行数字预失真（DPD）线性化的好处。为了降低多阶段CC行为模型的计算复杂度，提出了一种基于贪心算法的模型阶约简技术。本文广泛论证和分析了采用梯度下降参数识别的CC DPD模型相对于采用最小二乘参数识别的单级DPD模型的优势。考虑高效率伪多尔蒂负载调制平衡放大器（PD-LMBA）的线性化，对线性度、功率效率和计算复杂度之间的权衡进行了评估。使用提出的CC DPD模型修剪策略，我们证明了线性化PD-LMBA所需的参数数量显着减少。PA工作在2ghz的射频频率下，在带宽高达200mhz、峰值平均功率比为8db的5G新无线电信号驱动下，平均输出功率为40dbm，功率效率约为50%。

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