High speed and highly efficient S-band 20 W mixerless vector power modulator

A. Dasgupta, A. Disserand, J. Nebus, Audrey Martin, P. Bouysse, P. Medrel, R. Quéré
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引用次数: 4

Abstract

This paper presents a performance evaluation of an original highly efficient and linear GaN-HEMT Vector Power Modulator (VPM) based on the design of a two-stage saturated variable gain (SVG) amplifier and a multi-level discrete supply modulator (SM). The proposed novel architecture for transforming a digital baseband data stream into an RF Vector modulated power waveform (RF Power DAC) is validated using a specific laboratory test bench. The main objective of this study is to merge signal modulation and DC to RF energy conversion functions into a single and compact GaN based mixer-less circuit. Using high-voltage 50 V GaN technology, a 20 W S-band vector power modulator having overall average PAE of around 40 % is reported. The concept demonstrator is experimentally validated up to 100 Msymbols/sec 16-QAM modulation scheme. Functional time alignment with phase and amplitude compensation procedure focusing on measured constellation at 40 Msymbols/sec enables to reach excellent EVM performances of around 3.2 %.
高速高效s波段20w无混频器矢量功率调制器
基于两级饱和可变增益放大器(SVG)和多级离散电源调制器(SM)的设计,对一种新颖的高效线性GaN-HEMT矢量功率调制器(VPM)进行了性能评估。所提出的将数字基带数据流转换为RF矢量调制功率波形(RF power DAC)的新架构使用特定的实验室测试台进行了验证。本研究的主要目标是将信号调制和直流到射频能量转换功能合并到一个单一紧凑的基于GaN的无混频器电路中。采用高压50v GaN技术,实现了一种20 W s波段矢量功率调制器,其总体平均PAE约为40%。该概念演示器通过实验验证了高达100 m符号/秒的16-QAM调制方案。功能时间对准与相位和振幅补偿程序,聚焦于40 m符号/秒的测量星座,可以达到约3.2%的优秀EVM性能。
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