宽带高效双开关级数字辅助包络放大器,用于无线电基站包络跟踪功率放大器

C. Hsia, D. Kimball, S. Lanfranco, P. Asbeck
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引用次数: 41

摘要

为了提高宽带高线性包络跟踪功率放大器的整体效率,提出了一种新的包络放大器结构。我们在这里展示一种技术,以提高效率的包络放大器,同时保持放大器的带宽。该技术利用数字信号处理(DSP)控制与模拟迟滞反馈相结合。两个高效降压开关级相互协调,为射频级提供宽带包络功率;在低功率下,还使用了宽带宽线性调节器来保持包络信号的精度。该技术提高了包络放大器的效率,尤其适用于需要高峰值平均功率比(PAPR)和宽带信号的应用。整个系统使用GaAs高压HBT PA进行了演示。对于6.6dB ~ 9.6dB PAR和10MHz带宽范围内的各种信号,系统整体PAE达到50%以上,归一化功率均一误差小于5%,ACLR1为- 50dBc,无内存数字预失真,平均输出功率大于19W,增益为10dB。据我们所知,对于这些信号的包络跟踪基站放大器,所获得的效率是有史以来最好的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wideband high efficiency digitally-assisted envelope amplifier with dual switching stages for radio base-station envelope tracking power amplifiers
This paper presents a novel envelope amplifier architecture to improve the overall efficiency of wideband high linearity envelope tracking power amplifiers (PAs). We show here a technique to increase the efficiency of the envelope amplifier while maintaining the amplifier's bandwidth. The technique utilizes digital signal processing (DSP) control in conjunction with analog hysteretic feedback. Two high efficiency buck switching stages are coordinated to provide the wideband envelope power to the RF stage; a wide bandwidth linear regulator is also used at low power to maintain the envelope signal accuracy. The technique improves the efficiency of the envelope amplifier, especially for applications requiring high peak-to-average power ratio (PAPR) with wide bandwidth signals. The overall system was demonstrated using a GaAs high voltage HBT PA. For a variety of signals ranging from 6.6dB to 9.6dB PAR and up to 10MHz bandwidth, the overall system PAE reached above 50%, with a normalized power RMS error below 5% and ACLR1 of −50dBc with memory-less digital predistortion, at an average output power above 19W and gain of 10dB. The efficiencies obtained are the best ever reported, to our knowledge, for envelope tracking base station amplifiers for these signals.
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