s = solve(obj,freq)
analyzes the parabolic reflector antenna at the specified frequency using the Gaussian-beam
method and returns a table of calculated parameter values.
Design an offset parabolic reflector antenna with a 1.2 m diameter, 0.8 m focal length, and a 0.6 m clearance height fed by a four-element conical horn array with a 0.065 m aperture and 0.07 m element spacing.
r = reflectorCalculator(Diameter=1.2,FocalLength=0.8,ClearanceHeight=0.6,RadiatorAperture=0.065, ...
RadiatingElement="horn",FeedType="arrayfed",NumRadiators=4,Spacing=0.07);
Analyze the antenna at 12 GHz.
s = solve(r,12e9)
s=18×1 table
Reflector Antenna Values
________________________
Focal Length (λ) 32.02
Clearance Height (λ) 24.02
Diameter (λ) 48.03
Feed Tilt Angle θ* (°) 73.74
Half Angle Subtended By Reflector Center θ_0(°) 27.81
Angle At Bottom Edge θ1 (°) 41.11
Angle At Top Edge θ2 (°) 96.73
Efficiency (%) 17.55
Peak Directivity at Boresight Beam (dBi) 36.02
Gain at Boresight Beam (dBi) 36.02
Gain at Scan Angle (dBi) 35.95
Illumination Taper (dB) 96.35
Half Power Beamwidth (°) 2.75
Feed Size (m) 0.07
First SLL (dB) -397.3
Gain Loss due to Worst Case Scan (dB) 0.06
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