A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks

A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks

The structure of the modern wireless network evolves rapidly and maturing 4G networks pave the way to next generation 5G communication. A tendency of shifting from traditional high-power tower-mounted base stations towards heterogeneous elements can be spotted, which is mainly caused by the increase...

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Bibliographic Details
Main Authors: Aleksandr Vasjanov, Vaidotas Barzdenas
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Electronics
Subjects:
power amplifier
architecture
radio frequency
wireless
network
5G
trends
Online Access:https://www.mdpi.com/2079-9292/7/11/271
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spelling doaj-47949c7c660f40159995f44c401184bf2020-11-25T00:49:45ZengMDPI AGElectronics2079-92922018-10-0171127110.3390/electronics7110271electronics7110271A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless NetworksAleksandr Vasjanov0Vaidotas Barzdenas1Department of Computer Science and Communications Technologies, Vilnius Gediminas Technical University, 10221 Vilnius, LithuaniaDepartment of Computer Science and Communications Technologies, Vilnius Gediminas Technical University, 10221 Vilnius, LithuaniaThe structure of the modern wireless network evolves rapidly and maturing 4G networks pave the way to next generation 5G communication. A tendency of shifting from traditional high-power tower-mounted base stations towards heterogeneous elements can be spotted, which is mainly caused by the increase of annual wireless users and devices connected to the network. The radio frequency (RF) power amplifier (PA) performance directly affects the efficiency of any transmitter, therefore, the emerging 5G cellular network requires new PA architectures with improved efficiency without sacrificing linearity. A review of the most promising reported RF PA architectures is presented in this article, emphasizing advantages, disadvantages and concluding with a quantitative comparison. The main scope of reviewed papers are PAs implemented in scalable complementary metal⁻oxide⁻semiconductor (CMOS) and SiGe BiCMOS processes with output powers suitable for portable wireless devices under 32 dBm (1.5 W) in the low- and high- 5G network frequency ranges.https://www.mdpi.com/2079-9292/7/11/271power amplifierarchitectureradio frequencywirelessnetwork5Gtrends
collection DOAJ
language English
format Article
sources DOAJ
author Aleksandr Vasjanov
Vaidotas Barzdenas
spellingShingle Aleksandr Vasjanov
Vaidotas Barzdenas
A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks
Electronics
power amplifier
architecture
radio frequency
wireless
network
5G
trends
author_facet Aleksandr Vasjanov
Vaidotas Barzdenas
author_sort Aleksandr Vasjanov
title A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks
title_short A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks
title_full A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks
title_fullStr A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks
title_full_unstemmed A Review of Advanced CMOS RF Power Amplifier Architecture Trends for Low Power 5G Wireless Networks
title_sort review of advanced cmos rf power amplifier architecture trends for low power 5g wireless networks
publisher MDPI AG
series Electronics
issn 2079-9292
publishDate 2018-10-01
description The structure of the modern wireless network evolves rapidly and maturing 4G networks pave the way to next generation 5G communication. A tendency of shifting from traditional high-power tower-mounted base stations towards heterogeneous elements can be spotted, which is mainly caused by the increase of annual wireless users and devices connected to the network. The radio frequency (RF) power amplifier (PA) performance directly affects the efficiency of any transmitter, therefore, the emerging 5G cellular network requires new PA architectures with improved efficiency without sacrificing linearity. A review of the most promising reported RF PA architectures is presented in this article, emphasizing advantages, disadvantages and concluding with a quantitative comparison. The main scope of reviewed papers are PAs implemented in scalable complementary metal⁻oxide⁻semiconductor (CMOS) and SiGe BiCMOS processes with output powers suitable for portable wireless devices under 32 dBm (1.5 W) in the low- and high- 5G network frequency ranges.
topic power amplifier
architecture
radio frequency
wireless
network
5G
trends
url https://www.mdpi.com/2079-9292/7/11/271
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