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Patch Antenna Calculator

Calculators / Patch Antenna

Microstrip Patch Antenna
Calculator

Calculate the patch width, patch length, effective dielectric constant, and resonant frequency of a rectangular microstrip patch antenna using the Bahl & Trivedi transmission-line model.

▶ Start Calculating 📖 Theory
Substrate (εr) Ground Plane W = — L = — εr = 4.4 h = 1.6 mm Radiating Patch ← W →
Frequency Tuning 2.40 GHz
0.5 GHz10 GHz
Radiating Patch Dielectric Substrate Ground Plane

⚙ Patch Antenna Engine

Design frequency for the patch resonance

Common: 0.8, 1.6, 3.2 mm (FR4)

FR4 ≈ 4.4, Rogers RO4003C ≈ 3.55, PTFE ≈ 2.1

FR4 ≈ 0.02, RO4003C ≈ 0.0027, PTFE ≈ 0.0002

Advanced Parameters

mm

Typical copper: 35 µm (1 oz), 70 µm (2 oz)

Edge feed: simple, Zin ≈ 200–300 Ω at edge

mm

0 = edge. Inset reduces input impedance to 50 Ω

Sets inset-feed depth for impedance match

Calculated Results

Patch Width (W) mm
Patch Length (L)
Eff. Length (Leff)
Wavelength (λ)
λ/2 in substrate
Eff. Permittivity (εreff)
Length Extension (ΔL)
Radiation Resistance (Rr)
Quality Factor (Q)
Bandwidth (BW)
Gain (approx.)
Input Impedance (Zin)
Enter values above to calculate.

📖 Design Theory

A rectangular microstrip patch is a conducting patch on a grounded dielectric substrate. It resonates when its length L ≈ λg/2 in the substrate medium.

Step 1 — Patch Width

W = c / (2fr √((εr+1)/2))

Step 2 — Effective εr

εreff = (εr+1)/2 + (εr-1)/2 · (1+12h/W)^-½

Step 3 — Patch Length

L = c/(2fr√εreff) − 2ΔL

ΔL = fringe extension (Hammerstad formula)

The substrate thickness h and εr set the wavelength compression. Thicker/lower-εr substrates give wider bandwidth but larger patch size.

📡 Substrate & Field Visualiser

Live Simulation | ◉ Cross-Section & Radiation Pattern
Display Mode
εr Tuning 4.4
1.012.0
h/λ ratio 0.02
Cross-Section Substrate εr = 4.4 Ground Plane Patch (W) h = 1.6 mm Fringing fields E-field (TM₁₀)
Top View (Patch) W = — L=— Max current (centre) Radiating Patch ← Substrate (ground below) →
Design Insights

Enter frequency and substrate parameters to see live design insights and trade-offs.

Common Applications

📶

WiFi & Bluetooth

2.4 / 5 GHz patch antennas on PCBs for IoT devices, routers and wearables.

🛰️

GPS / GNSS

1.575 GHz (L1) circularly polarised patches widely used in navigation systems.

📡

Radar & 5G mmWave

Patch arrays at 24–77 GHz in automotive radar and 5G base-station tiles.

🚀

Aerospace & Defence

Low-profile conformal patch arrays on aircraft fuselages and missiles.

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