Quad-Band power divider based on left-handed transmission lines
ELectronic Letters • 2010
Publication Information
Authors
O.F. Siddiqui, A.S. Mohra and G.V. Eleftheriades
Keywords
quad band- power divider, metamaterials
Journal
ELectronic Letters
Publisher
IEE
Volume
46
Issue
21
Pages
1441-1442
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
With the trend of integrating several applications in communication
devices becoming increasingly common, the need to design
multi-band microwave components has become more important than
ever. Metamaterial lines or left-handed transmission lines (LHTLs),
on account of their unique dispersion properties, are suitable for
multi-band applications [1, 2]. This Letter presents a quad-band power
divider which is implemented by replacing the transmission line (TL)
segments of a previously proposed dual-band power divider (shown in
Fig. 1a) [3] with left-handed (LH) cells.
In this articel, A quad-band equal power divider has been designed by exploiting the
multi-band operation of left-handed transmission lines. Unit cell design
based on dispersion analysis is provided. A practical power divider that
demonstrates equal power division at frequencies 0.47, 0.8, 1.85 and
3.35 GHz was designed and fabricated by implementing the lefthanded
cells in microstrip technology
devices becoming increasingly common, the need to design
multi-band microwave components has become more important than
ever. Metamaterial lines or left-handed transmission lines (LHTLs),
on account of their unique dispersion properties, are suitable for
multi-band applications [1, 2]. This Letter presents a quad-band power
divider which is implemented by replacing the transmission line (TL)
segments of a previously proposed dual-band power divider (shown in
Fig. 1a) [3] with left-handed (LH) cells.
In this articel, A quad-band equal power divider has been designed by exploiting the
multi-band operation of left-handed transmission lines. Unit cell design
based on dispersion analysis is provided. A practical power divider that
demonstrates equal power division at frequencies 0.47, 0.8, 1.85 and
3.35 GHz was designed and fabricated by implementing the lefthanded
cells in microstrip technology
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