Patch Antenna Inset Feed Calculator Guide

--- Results --- Patch width (W) : 37.26 mm Patch length (L) : 28.96 mm Effective εr : 4.125 Edge input resistance : 215.8 Ω Inset distance (y0) : 9.32 mm from edge Impedance at inset : 49.98 Ω

This feature is designed for educational tools, RF simulation prep, or as a module in a larger antenna design suite. 1. Overview This feature calculates the required inset feed point distance for a rectangular microstrip patch antenna to achieve a specific input impedance match (typically 50Ω). It also computes key antenna parameters: resonant frequency, patch dimensions, and effective dielectric constant. patch antenna inset feed calculator

# Convert back to mm return "patch_width_mm": W * 1000, "patch_length_mm": L * 1000, "effective_epsilon_r": round(ereff, 4), "edge_resistance_ohms": round(Rin0, 2), "inset_distance_from_edge_mm": round(y0 * 1000, 3), "input_impedance_at_inset_ohms": round(Rin0 * (math.cos(math.pi * y0 / L)**2), 2) --- Results --- Patch width (W) : 37

# Step 1: Width W W = (c / (2 * f)) * math.sqrt(2 / (er + 1)) It also computes key antenna parameters: resonant frequency,

Suggested feed line width for 50Ω: 3.05 mm | (f_r) (GHz) | h (mm) | εr | Expected (y_0) (approx) | |---------------|--------|----|----------------------------| | 2.45 | 1.6 | 4.4 | 9.1–9.5 mm (FR4) | | 5.8 | 0.8 | 2.2 | 4.8–5.2 mm (5880) | | 1.9 | 1.0 | 3.55 | 15.0–16.0 mm (Rogers 4003C) |

# Step 2: Effective dielectric constant ereff = ((er + 1) / 2) + ((er - 1) / 2) * (1 / math.sqrt(1 + 12 * h / W))