Tommaso A. Cappello, Shane Verploegh, C. Florian, Z. Popovic
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引用次数: 3
摘要
本文研究了用离散级电源调制技术提高微波功率放大器的效率。我们演示了一种高效的调制器结构,它可以从单个直流电压产生三个水平的漏极电源电压。每个电平都存储在一个“飞行”电容器中,作为临时电压供应,并通过PA漏极电流的反转反馈动态调节。基于GaN-on-Si技术的混合调制器在单级2-W x波段MMIC PA上进行了测试,峰值输出功率的漏极效率为55%。使用雷达类高斯脉冲和5 mhz 6 db PAPR OFDM信号测量的总体平均漏极效率(PA和调制器)高达43%,比恒定电源情况下提高了14个百分点,使用预失真时标准化均方根误差低于1.5%。
Single-DC-Input Multi-Level Envelope Tracking of a High-Efficiency X-band Power Amplifier
This paper addresses the efficiency enhancement of microwave power amplifiers (PAs) with discrete-level supply-modulation. We demonstrate an efficient modulator architecture that generates three levels of drain supply voltages from a single dc voltage. Each level is stored in a "flying" capacitor that acts as a temporary voltage supply and is dynamically regulated by feedback through reversal of the PA drain current. A hybrid modulator based on GaN-on-Si technology is tested with a single-stage 2-W X-band MMIC PA with a drain efficiency of 55% at the peak output power. The overall average drain efficiency (PA and modulator) of up to 43% is measured with Gaussian-like pulses for radar and a 5-MHz 6-dB PAPR OFDM signal, and is improved up to 14 percentage points over a constant supply case, with normalized root mean square error below 1.5% when pre-distortion is used.
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