信封跟踪技术

Radio Frequency and Microwave Power Amplifiers. Volume 2: Efficiency and Linearity Enhancement Techniques Pub Date : 2019-08-12 DOI:10.1049/pbcs071g_ch3

F. Balteanu

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引用次数: 0

摘要

对高数据速率蜂窝系统不断增长的需求推动了4G/5G长期演进(LTE)的采用，该技术使用高峰值平均功率(PAPR)调制方案。5G将使用低于6 GHz和毫米波频谱带来高数据容量和低延迟。功能强大的智能手机在全球范围内的应用越来越多，部分原因是CMOS技术在较低特征节点(如FinFET 7nm / 14nm)中的应用越来越多。这使得智能手机采用信封追踪(ET)等“老”技术成为可能。ET技术早在1952年就被Leonard R. Kahn提到，他介绍了一种相关的技术，包络消除和恢复(EER)。包络跟踪提高了功率放大器的线性度和效率，功率放大器通常是无线发射机中最耗电的组件。随着频带激增以及载波聚合(CA)和多输入多输出(MIMO)技术的使用，提高射频发射方案的成本、尺寸和性能的研究领域非常活跃。

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Envelope tracking techniques

The growing demand for high data rate cellular systems has pushed the adoption of 4G/5G Long-Term Evolution (LTE) which uses high peak-to-average power (PAPR) modulation schemes. 5G will bring high data capacity and low latency using the sub-6 GHz and mm-wave spectrum. The increased adoption of powerful worldwide smart phones has been in part possible due to increase of CMOS technology in lower feature nodes as FinFET 7 nm/14 nm. This has made possible the adoption of “old” techniques such as envelope tracking (ET) into smart phones. The ET technique was mentioned back in 1952 by Leonard R. Kahn who introduced a related technique, envelope elimination and restoration (EER). Envelope tracking improves the linearity and efficiency RF for power amplifiers, typically the most power-hungry components in a wireless transmitter. With explosive band proliferation as well as the use of carrier aggregation (CA) and multiple input multiple output (MIMO) techniques, the research area of improving the cost, size, and the performance of the RF transmit solution is very active.

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Radio Frequency and Microwave Power Amplifiers. Volume 2: Efficiency and Linearity Enhancement Techniques

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