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Antenna Gain Calculator

Calculators / Antenna Gain

Antenna Gain
Calculator

Calculate antenna gain vs directivity, effective aperture, and radiation efficiency. Convert between dBi and dBd, calculate from physical aperture or beamwidth, and understand the relationship between gain, directivity and ohmic losses.

▶ Start Calculating 📖 Theory
Isotropic reference (0 dBi) G = — dBi η = — % D = — dBi Ae = — m²
Gain Tuning 6.0 dBi
−5 dBi40 dBi
Gain Lobe Isotropic Reference Efficiency η

⚙ Antenna Gain Engine

λ = — cm

D = G / η. For lossless antenna D = G

Ratio of radiated power to accepted power

Physical capture area of the antenna

Uniform illum. ≈ 1.0, typical reflector ≈ 0.55–0.70

°

Half-power (−3 dB) beamwidth in elevation plane

°

Half-power beamwidth in azimuth plane

Advanced Parameters

Ω

η = Rr / (Rr + Rl). 0 = ideal lossless

Ω

Dipole ≈ 73 Ω, monopole ≈ 36.5 Ω

dB

Impedance mismatch loss (SWR 1:1 = 0 dB)

Effective gain reduction from polarisation mismatch

Calculated Results

Antenna Gain (G) dBi
Radiation Efficiency (η) — %
Gain (dBi)
Gain (dBd)
Directivity (D)
Gain (linear)
Effective Aperture (Ae)
Physical Aperture (A)
Aperture efficiency (ηap)
Effective loss (ohmic)
Total system loss
Wavelength (λ)
Enter values to calculate.

📖 Theory

Antenna gain, directivity, and efficiency are three related but distinct quantities that describe how well an antenna concentrates radiated energy in a given direction.

Gain vs Directivity

G = η × D
G(dBi) = D(dBi) + 10·log(η)

G ≤ D always. G = D only when η = 1 (lossless).

Effective Aperture

Ae = G × λ² / (4π)
Ae = ηap × A (aperture antennas)

Every antenna has an effective capture area proportional to its gain.

Gain from Beamwidth

D ≈ 32,400 / (θ_E × θ_H)
G ≈ 29,000 / (θ_E × θ_H)

θ in degrees. Kraus approximation for pencil-beam antennas.

Efficiency from Resistance

η = Rr / (Rr + Rl)
η(dB) = 10·log₁₀(η)

Rr = radiation resistance, Rl = ohmic loss resistance.

📡 Gain & Aperture Viewer

Live Simulation | ◉ Pattern & Ae scale with gain and efficiency
Display
Gain 6.0 dBi
−540 dBi
Efficiency 90%
10%100%
Radiation Pattern Isotropic — dBi
Design Insights

Select antenna type or enter gain/directivity values to see design insights.

Common Applications

🔗

Link Budget Design

Antenna gain is the key input to the Friis equation — critical for calculating received power, range, and link margin in any RF system.

📡

Antenna Selection

Compare gain and effective aperture of different antenna types — dipole, patch, Yagi, horn, dish — for the same frequency.

🔬

Antenna Measurement

Convert measured beamwidths to gain, verify antenna efficiency from radiation resistance, or cross-check dBi vs dBd readings.

🛰️

Satellite & Radar

Calculate dish antenna gain, effective aperture, and aperture efficiency for earth station, satellite, and radar system design.

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