Y. Komatsuzaki, R. Ma, M. Benosman, Yukimasa Nagai, Shuichi Sakata, K. Nakatani, S. Shinjo
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引用次数: 15
摘要
本文报道了一种基于频率周期性负载调制的超宽带高效sub-6GHz功率放大器。关键的新颖之处是在多个连续频带上进行频率周期负载调制,并结合数字辅助双输入配置,从而提供最佳的信号组合、双输入信号的幅度和相位。使用0.15µm GaN HEMT fet的放大器在1.4-4.8GHz范围内实现了45-62%的漏极效率,即在6dB功率回退下的110%分数带宽。据作者所知,这是迄今为止在这些频率范围内负载调制放大器报道的最宽的分数带宽。这是5G基站非常有前途的PA技术,可以降低运营商的总拥有成本(TCO)。
A Novel 1.4-4.8 GHz Ultra-Wideband, over 45% High Efficiency Digitally Assisted Frequency-Periodic Load Modulated Amplifier
We report an ultra-wideband and high efficiency sub-6GHz power amplifier, which is based on periodically varied load modulation with frequency. Key novelties are frequency-periodic load modulation over multiple contiguous frequency bands combined with digitally assisted dual-input configuration, which provides optimum signal combination, magnitude and phase of dual-input signals. The amplifier using 0.15-µm GaN HEMT FETs achieved drain efficiency of 45-62% over 1.4-4.8GHz that is 110% fractional bandwidth at 6dB power back-off. This, to the best of the authors’ knowledge, is the widest fractional bandwidth reported so far for a load modulated amplifier at these frequency range. It is a very promising PA technology for 5G base station, enabling reduction of the total cost of ownership (TCO) for operators.
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