First-pass design of high efficiency power amplifiers using accurate large signal models

2010 IEEE 11th Annual Wireless and Microwave Technology Conference (WAMICON) Pub Date : 2010-04-12 DOI:10.1109/WAMICON.2010.5461832

D. Y. Wu, Daniel Frebrowski, S. Boumaiza

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引用次数: 10

Abstract

A systematic, first-pass methodology for designing high efficiency power amplifier (PA) using only large signal CAD models is presented. Detailed analysis using the model reveals significant insights into PA operation as well as the required impedance environment for high efficiency mode of operation. In particular, waveform engineering and empirical loadpull are used to determine the optimal class of operation and impedance terminations. Combined with the use of precise electromagnetic simulator in synthesizing the matching network, first pass design of a 10W, 3.3 GHz GaN inverse class F PA as well as a 2.5 GHz push-pull inverse class F PA was realized with very good agreement between simulation and measurement results. Specifically, the 3.3 GHz PA achieved 74% power added efficiency (PAE) at 3.27 GHz with 38.27 dBm output power, while the push-pull PA achieved 75% drain efficiency with 42.7 dBm output power. The linearizability of the 3.3 GHz PA is demonstrated using predistorted WiMAX modulated signals. When combined with DPD, the PA showed acceptable EVM for use in next generation wireless base stations.

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采用精确大信号模型的高效率功率放大器的首通设计

提出了一种基于大信号CAD模型的高效功率放大器系统设计方法。使用该模型的详细分析揭示了对PA操作以及高效操作模式所需的阻抗环境的重要见解。特别是，波形工程和经验负载拉被用来确定最优的操作和阻抗终端类别。结合精密电磁模拟器在匹配网络合成中的应用，实现了10W、3.3 GHz GaN反类fpa和2.5 GHz推挽反类fpa的首通设计，仿真结果与测量结果吻合良好。具体来说，3.3 GHz放大器在3.27 GHz和38.27 dBm输出功率下实现了74%的功率附加效率(PAE)，而推挽式放大器在42.7 dBm输出功率下实现了75%的漏极效率。使用预失真的WiMAX调制信号演示了3.3 GHz放大器的线性性。当与DPD结合使用时，PA显示出可接受的EVM，可用于下一代无线基站。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 IEEE 11th Annual Wireless and Microwave Technology Conference (WAMICON)

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