用于TX波束形成的多相插值数字功率放大器

2015 IEEE Hot Chips 27 Symposium (HCS) Pub Date : 2020-02-11 DOI:10.3390/chips1010004

Zhidong Bai, Wen Yuan, A. Azam, J. Walling

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引用次数: 2

摘要

本文提出了一种采用65nm CMOS实现的四通道波束形成TX。每个波束形成TX由一个C-2C分阵多相开关电容功率放大器(SAMP-SCPA)组成。这是第一次使用多相插值(MPI)进行波束控制。该技术是低频波束形成和MIMO的理想选择，因为它不需要无源或基于低电平的移相器。SCPA非常适合用作核心元件，因为它可以执行频率转换和数据转换，并在紧凑的模具区域内以高功率和高效率驱动输出。一个四元波束成形TX样机位于2mm×2.5mm，峰值输出功率为24.4 dBm，峰值系统效率(SE)为24%，同时实现<1°相位分辨率和<1 dB增益误差。当传输15mhz, 64-QAM长期演进(LTE)信号时，它在14% SE下输出18.4 dBm，测量到的相邻信道泄漏比(ACLR) < - 30 dBc, 1.75 GHz时误差矢量幅度(EVM)为3.27% RMS。基于单个模的测量结果合成的波束图得到的波束角误差<0.32°RMS，波束幅度误差<0.1 dB RMS。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Multiphase Interpolating Digital Power Amplifiers for TX Beamforming

This paper presents a four-channel beamforming TX implemented in 65 nm CMOS. Each beamforming TX is comprised of a C-2C split-array multiphase switched-capacitor power amplifier (SAMP-SCPA). This is the first use of multiphase interpolation (MPI) for beam steering. This technique is ideal for low-frequency beamforming and MIMO, as it does not require passive or LO-based phase shifters. The SCPA is ideal for use as the core element since it can perform frequency translation and data conversion, and drive an output at high power and efficiency in a compact die area. A prototype four-element beamforming TX, occupying 2mm×2.5mm, can achieve a peak output power of 24.4 dBm with a peak system efficiency (SE) of 24%, while achieving <1∘ phase resolution and <1 dB gain error. When transmitting a 15 MHz, 64-QAM long-term evolution (LTE) signal it outputs 18.4 dBm at 14% SE with a measured adjacent channel leakage ratio (ACLR) of <−30 dBc and an error vector magnitude (EVM) of 3.27% RMS at 1.75 GHz. A synthesized beam pattern based on measured results from a single die achieves <0.32∘ RMS beam angle error and <0.1 dB RMS beam amplitude error.

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2015 IEEE Hot Chips 27 Symposium (HCS)

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