具有内置AM–PM补偿和单变压器输出网络的数字功率放大器

Jeongseok Lee;Doohwan Jung;David Munzer;Hua Wang
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引用次数: 0

摘要

本文介绍了一种具有内置AM–PM补偿技术和紧凑的单变压器占地面积的数字功率放大器(DPA)。详细介绍了电流模式/电压模式功率放大器(PA)的AM–PM失真行为,并介绍了两种模式的AM–PM补偿技术。所提出的设计利用一个电流模式DPA作为主路径PA和一个G类PA电压模式数字PA作为辅助路径PA,通过单个变压器占地面积进行组合。它通过内置自适应偏置和基于多尔蒂的混合电流/电压模式功率组合提供增强的线性。作为概念验证,Globalfoundries 45 nm CMOS SOI工艺实现了1.2–2.4-GHz宽带DPA。测量结果显示,与1.2 GHz时3dB/6 dB的理想B类PBO相比,1.4 GHz时的峰值漏极效率(DE)为37.6%,饱和输出功率(Psat)为21.8 dBm,功率回退(PBO)为$1.2\times/1.4\times$。这种提出的数字PA在14.8 dBm的平均输出功率和22.8%的平均PA-DE下支持20 MSym/s 64-QAM调制,同时在没有任何相位预失真的情况下保持误差矢量幅度(EVM)低于-23 dB。据我们所知,这是首次在宽带(BW)上在单个占地面积变压器上进行混合电流-电压模式多尔蒂功率组合的演示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Digital Power Amplifier With Built-In AM–PM Compensation and a Single-Transformer Output Network
This article presents a digital power amplifier (DPA) with a built-in AM–PM compensation technique and a compact single-transformer footprint. The AM–PM distortion behavior of the current-mode/voltage-mode power amplifiers (PAs) is detailed and an AM–PM compensation technique for both modes is introduced. The proposed design utilizes one current-mode DPA as the main path PA and a class-G PA voltage-mode digital PA as the auxiliary path PA, combined through a single-transformer footprint. It provides enhanced linearity through built-in adaptive biasing and hybrid current-/voltage-mode Doherty-based power combining. As a proof of concept, a 1.2–2.4-GHz wideband DPA is implemented in the Globalfoundries 45-nm CMOS SOI process. The measurements show a 37.6% peak drain efficiency (DE) at 1.4 GHz, and 21.8-dBm saturated output power (Psat) and $1.2\times /1.4\times $ power back-off (PBO) efficiency enhancement, compared to the ideal class-B at 3 dB/6 dB PBO at 1.2 GHz. This proposed digital PA supports 20-MSym/s 64-QAM modulation at 14.8-dBm average output power and 22.8% average PA DE while maintaining error vector magnitude (EVM) lower than −23 dB without any phase predistortion. To the best of our knowledge, this is the first demonstration of hybrid current–voltage-mode Doherty power combining on a single-footprint transformer over a broad bandwidth (BW).
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