W. Woo, K. An, O. Lee, Jae J. Chang, Chang-Ho Lee, Kiseok Yang, Mi-Jeong Park, Haksun Kim, J. Laskar
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引用次数: 1
摘要
本文提出了一种新的极性发射机结构,该结构采用模拟预失真来提供射频放大器中幅度和相位误差的基本瞬时校正。这种方法可以同时提高放大器的线性输出功率能力和效率。与使用闭环反馈的传统架构不同,发射器中不包含下变频接收器。此外,仅使用偶阶失真分量以乘法方式对输入信号进行预失真,从而大大提高了有效校正带宽。为了验证该架构,设计了基于台积电0.18 um CMOS技术的PA电路模型。在仿真结果中,所提出的架构将增益从2 dB降低到0.5 dB,相位从18°降低到±0.5°。仿真结果表明,在输出功率为33 dBm时,evm的有效值小于0.5%,峰值小于5%,PAE为58%。
A novel linear polar transmitter architecture using low-power analog predistortion for EDGE applications
This paper presents a new polar transmitter architecture that employs analog predistortion to provide substantially instantaneous correction of amplitude and phase errors in RF PAs. This approach enables to enhance the linear output power capability and efficiency of a PA, simultaneously. Unlike conventional architectures using a closed-loop feedback, no downconversion receiver is included in the transmitter. Moreover, only even-order distortion components are used to predistort the input signal in a multiplicative manner so that the effective correction bandwidth is greatly enhanced. For validation of the architecture, a PA circuit model was designed, based upon the TSMC 0.18-um CMOS technology. In the simulation results, the proposed architecture reduced PA nonlinearity from 2 dB to 0.5 dB for gain and from 18deg to plusmn0.5deg for phase. Also, the simulation results exhibited EVMs of less than 0.5% in RMS and 5% in peak, a PAE of 58% at the output power of 33 dBm.
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