用于基站应用的200瓦宽带连续模式多赫蒂功率放大器

2017 IEEE MTT-S International Microwave Symposium (IMS) Pub Date : 2017-06-01 DOI:10.1109/MWSYM.2017.8058790

Xiaofan Chen, Wen-hua Chen, Qian Zhang, F. Ghannouchi, Zhenghe Feng

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引用次数: 16

摘要

介绍了一种用于基站的大功率连续模多尔蒂功率放大器(C-DPA)。通过利用有源器件的去嵌入模型，并允许两个晶体管在谐波频率下相互调制，所提出的C-DPA具有更高的功率、效率和带宽。基于该技术，在1.7 ~ 2.7 GHz频段上设计了一个200瓦C-DPA样机。测量结果表明，在1 GHz带宽范围内，设计的DPA在饱和时产生52.7 ~ 54.3 dBm的功率，在- 6dB功率回退(BO)时具有40% ~ 50.2%的漏极效率。据作者所知，这是用于基站应用的高功率宽带dpa的最先进性能。此外，使用10MHz, 7.5dB PAPR LTE信号，测量了制作的DPA并在全频带上进行了线性化，验证了其线性化能力。

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A 200 watt broadband continuous-mode doherty power amplifier for base-station applications

This paper presents a high-power Continuous-mode Doherty Power Amplifier (C-DPA) for base-station applications. By utilizing de-embedded models of active devices and allowing the two transistors modulate each other at harmonic frequencies, the proposed C-DPA exhibits improved power, efficiency and bandwidth. Based on the proposed technique, a demonstrating 200 Watt C-DPA was designed over 1.7–2.7 GHz band. According to the measured results, over the 1 GHz bandwidth, the designed DPA generates 52.7–54.3 dBm power at saturation and exhibits 40%-50.2% drain efficiency at −6dB power back-off (BO). To the best of the authors' knowledge, this is the state-of-the-art performance of high-power broadband DPAs for base-station applications. Furthermore, using a 10MHz, 7.5dB PAPR LTE signal, the fabricated DPA was measured and linearized over the full-band, verifying its ability of being linearized.

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2017 IEEE MTT-S International Microwave Symposium (IMS)

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