24.7dBm全数字射频发射机，用于40nm CMOS多模宽带应用

2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers Pub Date : 2013-03-28 DOI:10.1109/ISSCC.2013.6487757

Chao-Hsin Lu, Hua Wang, CH Peng, A. Goel, Sang-Hee Son, Paul C. P. Liang, A. Niknejad, HC Hwang, G. Chien

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引用次数: 67

摘要

近年来，利用纳米级CMOS工艺提供的高速晶体管，数字化射频电路引起了广泛的关注。数字辅助或数字密集型射频收发器不仅在功率效率和芯片面积方面受益于技术扩展，而且还提高了功能灵活性。极结构在数字射频发射机中得到了很好的认可[1,2,4,5]，但笛卡尔到极变换导致的带宽扩展使其难以符合高速无线标准。分相发射机采用开环相位插值拓扑[3]，用40MHz 802.11n信号演示12dBm输出功率。在这项工作中，提出了一种具有直接正交结构的全数字射频发射机，以满足宽带无线连接的需求。

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A 24.7dBm all-digital RF transmitter for multimode broadband applications in 40nm CMOS

Recently, digitizing RF circuits has attracted extensive attention by exploiting high speed transistors offered in nano-scale CMOS processes. The digitally-assisted or digital-intensive RF transceivers not only benefit from technology scaling in terms of power efficiency and die area, but also improve functional flexibility. The polar architecture is well recognized for digital RF transmitters [1,2,4,5], while the bandwidth expansion resulting from Cartesian-to-polar transformation makes it difficult to comply with high-speed wireless standards. Open-loop phase interpolation topology was employed in an outphasing transmitter [3], where 12dBm output power was demonstrated with 40MHz 802.11n signal. In this work, an all-digital RF transmitter with direct quadrature architecture is presented to address the need for broadband wireless connectivity.

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

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