5-6GHz全双工正交平衡CMOS射频前端收发互调失真校正

2020 IEEE/MTT-S International Microwave Symposium (IMS) Pub Date : 2020-08-01 DOI:10.1109/IMS30576.2020.9224029

Nimrod Ginzberg, Tomer Gidoni, D. Regev, E. Cohen

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引用次数: 3

摘要

在这项工作中，我们提出了在载波频率为5.2 GHz的全双工正交平衡CMOS RF前端中发射-接收交叉调制(CM)失真的分析，表征和校正。提出了由功率放大器输出阻抗瞬时变化引起的CM机制的理论模型，并在测量中进行了验证。采用二维数字后失真(2D-DPoD)算法对CM失真接收信号进行线性化，并结合宽带数字射频和基带自干扰消除。该系统采用802.11ac VHT20信号，在10 dBm RMS Tx功率和-17 dBm Rx功率下进行同步收发操作，实现了总Tx-Rx隔离>66 dB。数字SIC和2D-DPoD将Rx EVM校正16 dB至-32.5 dB。

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Transmit-Receive Cross-Modulation Distortion Correction in a 5-6GHz Full Duplex Quadrature Balanced CMOS RF Front-End

In this work, we propose an analysis, characterization, and correction of transmit-receive cross-modulation (CM) distortion in a full duplex quadrature balanced CMOS RF front-end around the carrier frequency of 5.2 GHz. A theoretical model of the CM mechanism stemming from instantaneous variations in the power amplifiers' output impedance is laid out and verified in measurement. A two-dimensional digital post-distortion (2D-DPoD) algorithm is employed to linearize the CM distorted receive signal, in conjunction with wideband digital RF and baseband self-interference cancellation. The system was measured in a simultaneous transmit-receive operation using 802.11ac VHT20 signals at 10 dBm RMS Tx power and -17 dBm Rx power and achieves total Tx-Rx isolation >66 dB. The digital SIC and 2D-DPoD correct Rx EVM by 16 dB to a value of -32.5 dB.

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2020 IEEE/MTT-S International Microwave Symposium (IMS)

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