正交空间组合的数字调制毫米波笛卡尔波束形成发射机

2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers Pub Date : 2013-03-28 DOI:10.1109/ISSCC.2013.6487713

Jiashu Chen, Lu Ye, D. Titz, F. Gianesello, R. Pilard, A. Cathelin, F. Ferrero, C. Luxey, A. Niknejad

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引用次数: 82

摘要

随着高速移动通信需求的快速增长和10GHz以下频谱使用的高度饱和，毫米波频段正在成为未来高数据速率无线标准的关键平台。近年来，v波段(60GHz)无线个人区域网络(WPAN)和e波段(80GHz)点对点蜂窝回程技术取得了巨大的发展。然而，现有的集成CMOS毫米波解决方案的能量效率相对较差，特别是对于发射器(TX)。这主要是由于使用传统的a类功率放大器(PAs)，提供良好的线性，但效率低。此外，a类PAs的效率在功率回退时急剧下降，使这些发射机在传输非恒定包络信号时效率更低。最先进的毫米波a类放大器在6dB后退时的效率低于5%[1,2]。

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A digitally modulated mm-Wave cartesian beamforming transmitter with quadrature spatial combining

With fast-growing demand for high-speed mobile communications and highly saturated spectral usage below 10GHz, mm-Wave frequency bands are emerging as the key playground for future high-data-rate wireless standards. Recent years have witnessed vast technology development on V-band (60GHz) Wireless Personal Area Networks (WPAN) and E-band (80GHz) point-to-point cellular backhauls. However, existing integrated CMOS mm-Wave solutions have relatively poor energy efficiency, especially for the transmitter (TX). This is mainly due to the use of traditional Class-A Power Amplifiers (PAs) that provide good linearity but suffer from low efficiency. In addition, the efficiency of Class-A PAs drop dramatically at power back-offs, making these transmitters even less efficient when conveying non-constant envelope signals. State-of-the-art mm-Wave Class-A PAs show less than 5% efficiency at 6dB back-off [1,2].

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2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers

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