A dual band power divider for Long Term Evolution (LTE) standard is implemented using metamaterial transmission lines. First, a study regarding the influence of symmetry and number of cells over the performances is carried on. The behaviour of the power divider is then, analysed in the frequency domain and great agreement between theory and simulation is achieved. The novelty of this paper is the usage of Dual Composite Right Left Handed (D-CRLH) transmission lines, which are optimized both from the performances’ point of view and the technological constrains, to design a dual band power divider with good results for both frequencies. Measurements confirm the dual band behaviour of the power divider.
%0 Generic
%1 manoliu2019metamaterial
%A Mocanu, Iulia Andreea
%A Manoliu, Laura
%B Dual Band Metamaterial Power Divider with Improved Relative Bandwidth for LTE Applications
%D 2019
%I IEEE
%K Bandwidthsend:unibiblio Dual Frequency Power Transmission band conversion dividers line lines measurement measurements transmission
%R 10.23919/GEMIC.2019.8698192
%T Dual Band Metamaterial Power Divider with Improved Relative Bandwidth for LTE Applications
%U https://ieeexplore.ieee.org/document/8698192
%X A dual band power divider for Long Term Evolution (LTE) standard is implemented using metamaterial transmission lines. First, a study regarding the influence of symmetry and number of cells over the performances is carried on. The behaviour of the power divider is then, analysed in the frequency domain and great agreement between theory and simulation is achieved. The novelty of this paper is the usage of Dual Composite Right Left Handed (D-CRLH) transmission lines, which are optimized both from the performances’ point of view and the technological constrains, to design a dual band power divider with good results for both frequencies. Measurements confirm the dual band behaviour of the power divider.
%@ 978-3-9812668-9-4
@conference{manoliu2019metamaterial,
abstract = {A dual band power divider for Long Term Evolution (LTE) standard is implemented using metamaterial transmission lines. First, a study regarding the influence of symmetry and number of cells over the performances is carried on. The behaviour of the power divider is then, analysed in the frequency domain and great agreement between theory and simulation is achieved. The novelty of this paper is the usage of Dual Composite Right Left Handed (D-CRLH) transmission lines, which are optimized both from the performances’ point of view and the technological constrains, to design a dual band power divider with good results for both frequencies. Measurements confirm the dual band behaviour of the power divider.},
added-at = {2019-05-06T16:09:05.000+0200},
author = {Mocanu, Iulia Andreea and Manoliu, Laura},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/22233ddc93a60c30419fa6ba8d583ab83/yvesm},
booktitle = {Dual Band Metamaterial Power Divider with Improved Relative Bandwidth for LTE Applications},
doi = {10.23919/GEMIC.2019.8698192},
eventdate = {25-27 March 2019},
eventtitle = {12th German Microwave Conference (GeMiC)},
interhash = {41763a55e400e662544460a4195e1c59},
intrahash = {2233ddc93a60c30419fa6ba8d583ab83},
isbn = {978-3-9812668-9-4},
issn = {2167-8022},
keywords = {Bandwidthsend:unibiblio Dual Frequency Power Transmission band conversion dividers line lines measurement measurements transmission},
month = mar,
organization = {IEEE},
publisher = {IEEE},
timestamp = {2019-05-06T14:13:28.000+0200},
title = {Dual Band Metamaterial Power Divider with Improved Relative Bandwidth for LTE Applications},
url = {https://ieeexplore.ieee.org/document/8698192},
venue = {Stuttgart, Germany},
year = 2019
}