T. Quach, P. Watson, B. Dupaix, T. Barton, M. LaRue, W. Gouty, W. Khalil
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引用次数: 1
摘要
这项工作提出了一个宽带数字PA拓扑实现在氮化镓MMIC直接数字射频发射机。该拓扑结构采用差分电流模式驱动器和具有有源上拉的GaN逆变级来驱动高效的开关模式PA。通过在GaN中应用数字电路设计技术,我们的方法通过脉冲宽度和脉冲位置控制实现了开关模式PA的宽带数字驱动。该方法在C波段的0.2 pm GaN - SiC铸造工艺中得到了实验验证。数字放大器工作在2.5-6.0 GHz范围内,总漏极效率大于30%,末级漏极效率超过40%,峰值输出功率为35.2 dBm。
Wideband high-efficiency digital power amplifier in GaN
This work presents a wideband digital PA topology implemented in Gallium Nitride MMIC for a direct-digital RF transmitter. The topology employs a differential current mode driver and GaN inverter stage with active pull-up to drive an efficient switch-mode PA. By applying digital circuit design techniques in GaN, our approach enables wide-band digital drive of a switched-mode PA through pulse-width and pulse-position control. The approach is experimentally validated in a 0.2 pm GaN on SiC foundry process at C band. The digital PA operates over a 2.5–6.0 GHz range with total drain efficiency greater than 30%, final-stage drain efficiency yielded over 40%, and peak output power of 35.2 dBm.
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