computer modeling of modern antenna arrays - college of … · 2011-06-17 · antenna pattern,...
TRANSCRIPT
Obtain Transfer Fn of Building Block (FETI)
Problem Partitioning in Domains*
Adaptive Mesh Refinement on
Building Blocks
Construct Domains
Using Building Blocks*
Connect Domains using “cement”
technique & Outer Loop DDM Iteration
Extract Engineering Info. Antenna Pattern, Impedance,
Q Factors, etc
Recover Fields from Reduced Surface Unknowns for Each
Domain
*Domain is a translation invariant instance of a Building
Block.
Analysis OverviewHigher Order FEM–Tree-Cotree–pMUS–hAMR–DD–Cement–FETI
x
y
zθ=30º
φ=90º
d=7.9λ
300×300
Single Polarized
16×16 ×2
Finite Arrays of Vivaldi Tapered Slot AntennasSimulation over 900 million unknowns of very complicated geometry
HFSS infinite array prediction
DD-FEM prediction
1 billion FEM unknowns on a PC in 1 day.
Dual Polarized
Good agreement with commercial simulators
Scan
dire
ctio
n
G0=23.31dBi (Simulated)G0=23.44dBi (Measured)
Scan dirzection
24×12 RADAR Sub-array ModuleDomain Decomposition FEM vs. Measurements
Good agreement with measurements (impedance too)
≈17dB
Scattering of Patch Arrays on Finite DielectricParametric Studies
≈22dB≈12dB
Geometry
Effect of Array Size Effect of Array Shape
Effect of Element Loading
0° scan
x
y
z
Active Reflection Coeff.Near & Far Fields
x
y
z
Finite Patch Arrays on Truncated CylindersDD-FEM for Curved Structures (Rotational Symmetry)
60° H-scan
x
y
z
x
y
z
Planar vs. Cylindrical Finite Patch ArraysFor Small Radius Radiation by Planar and Cylindrical Arrays is Different
Finite Planar Array Finite Cylindrical Array
xy
xz
(TTVG-800)
(TTVG-800)
Active Reflection Coeff.
Near & Far Fields
Magnitude Phase
Geometry.
Finite Arrays of Ferrite Loaded CBS ArraysDD-FEM for anisotropic non-reciprocal materials
Arrays involving complex material simulated in PCs within few hours
−15
−10
−5
0
5
10
0
30
60
90
120
150
180180
150
120
90
60
30
Top View —1.5λ away
Back View —1.5λ away
PEC
Ground Plane
AM
C G
roun
d Pl
ane
Back View —1.5λ away
Top View —1.5λ away
PEC Ground PlaneAMC Ground Plane
Monopole Radiation over EBGSimulation of 39 million unknowns
Teflon Lens
Split Ring LensNegative Refraction Lens
Geometry (Top View)
Metamaterial Plano-concave Lens3D simulation of 50 million unknowns, Very challenging geometry