77 GHz的PMOS毫米波功率放大器，输出功率为90mw，效率为24%

2016 IEEE Radio Frequency Integrated Circuits Symposium (RFIC) Pub Date : 2016-05-22 DOI:10.1109/RFIC.2016.7508301

J. Jayamon, J. Buckwalter, P. Asbeck

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引用次数: 33

摘要

在栅极长度小于40 nm的深度缩放CMOS工艺中，NMOS和PMOS fet的模拟性能相当。与此同时，PMOS fet通常可以在比NMOS器件更高的工作电压下工作。在本文中，我们提出了第一个完全采用PMOS的毫米波功率放大器。单级，三叠功率放大器工作在65 - 92 GHz，超过35%的分数带宽和12db增益。在78 GHz时，PA在a类偏置下的最大输出功率为19.6 dBm, PAE为18%;在ab类偏置下的最大输出功率为18.7 dBm, PAE为24%。该PA采用32nm CMOS SOI工艺制造，面积为440 μm × 280 μm(不包括焊片)，仅为0.05 mm2。据作者所知，该PA在60-90 GHz频段内实现了任何硅PA的最高效率。对于不使用复杂功率组合方法的放大器，输出功率也是该频率范围内硅中报道的最好的。

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A PMOS mm-wave power amplifier at 77 GHz with 90 mW output power and 24% efficiency

In deeply scaled CMOS processes with gate lengths below 40 nm the analog performance of NMOS and PMOS FETs are comparable. At the same time PMOS FETs can typically operate under higher operating voltages than NMOS devices. In this paper, we present the first millimeter-wave power amplifier exclusively employing PMOS. The single stage, 3-stack power amplifier operates at 65 - 92 GHz with more than 35% fractional bandwidth and 12 dB gain. At 78 GHz, the PA achieves a maximum output power of 19.6 dBm and PAE of 18% with class-A bias, and 18.7 dBm and 24% PAE with class-AB bias. The PA has been fabricated in 32 nm CMOS SOI process and occupies 440 μm × 280 μm area (only 0.05 mm2 excluding pads). To the authors' knowledge this PA achieves the highest efficiency for any silicon PA in the 60-90 GHz frequency band. The output power is also the best reported in silicon for this frequency range, for amplifiers that do not use elaborate power-combining approaches.

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2016 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)

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