Green Flexible RF for 5G

5th Generation mobile networks (5G) and mobile communications technologies beyond 2020 will need to be energy aware so as to support services that are likely to be intelligent and bandwidth hungry, as well as to support multi‐mode operation (LTE, LTE+, HSDPA, 3G among others) in a HetNet...

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1. Verfasser:	Rodriguez, Jonathan
Format:	Buchkapitel
Sprache:	eng
Schlagworte:	Antenna array antennas CMOS Frequency reconfigurable low noise amplifiers Pattern reconfigurable Predistorter RF power amplifiers Substrate Integration Waveguide (SIW)
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creator	Rodriguez, Jonathan
description	5th Generation mobile networks (5G) and mobile communications technologies beyond 2020 will need to be energy aware so as to support services that are likely to be intelligent and bandwidth hungry, as well as to support multi‐mode operation (LTE, LTE+, HSDPA, 3G among others) in a HetNet environment. This imposes stringent design requirements on the RF transceiver, a key consumer of power in networks today. This chapter will investigate the key RF subsystems forming part of the 5G RF transceiver, where energy efficiency and full radio flexibility are at the forefront of system design. In particular, we target advanced designs on antenna systems, RF power amplifiers and the challenges facing cross‐talk in MIMO architectures.
doi_str_mv	10.1002/9781118867464.ch11
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identifier	ISBN: 1118867521
ispartof	Fundamentals of 5G Mobile Networks, 2015, p.241-272
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source	O'Reilly Online Learning: Academic/Public Library Edition
subjects	Antenna array antennas CMOS Frequency reconfigurable low noise amplifiers Pattern reconfigurable Predistorter RF power amplifiers Substrate Integration Waveguide (SIW)
title	Green Flexible RF for 5G
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