Input impedance characteristics of microstrip antennas on hemispherical multilayer structures

The recently developed method for the analysis of microstrip antennas on hemispherical structures has been applied to derive the input impedance characteristics of quasi-rectangular microstrip antennas. By using corresponding full-wave equivalent circuits, the dyadic Green's functions of this s...

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Bibliographic Details
Main Author: Giang, T.V.B.
Format: Conference Proceeding
Language:English
Subjects:
Current distribution
Dielectric substrates
Equations
Equivalent circuits
Green's function methods
Impedance
Microstrip antennas
Moment methods
Nonhomogeneous media
Transmission line matrix methods
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Summary:The recently developed method for the analysis of microstrip antennas on hemispherical structures has been applied to derive the input impedance characteristics of quasi-rectangular microstrip antennas. By using corresponding full-wave equivalent circuits, the dyadic Green's functions of this structure and the system equation for the tangential field components at the interfaces can be analytically derived in a simple way. The Galerkin method-of-moments approach is used to solve the unknown current distribution on the patch, where the system equation involving the impedance matrix and the excitation vector can be set up and solved in the spectral domain. The computation data is verified with commercial software codes. Some advantages over commercial codes are also given.
ISSN:2162-1020
2162-1039
DOI:10.1109/ATC.2009.5349512