Antenas & Propagación, RF & Microwaves

Calculadora de Longitud de Antena

Convierte la frecuencia a la longitud de onda instantáneamente. Utiliza esta herramienta para encontrar la longitud precisa del cable para antenas dipolo y verticales, asegurando una SWR y resonancia perfectas.

Frequency

MHz

Velocity Factor (Vf)

Calculation Results:

How It Works: The Theory

This calculator helps you determine the physical length to cut an antenna for a specific radio frequency. The calculation is based on the fundamental relationship between frequency, wavelength, and the speed of light.

The Basic Formula

The wavelength (λ) of a radio wave is its speed (the speed of light, c) divided by its frequency (f).

λ = c / f

However, an antenna's physical length is slightly shorter than its electrical length due to an electrical phenomenon called the "end effect." Radio waves also travel slightly slower in a wire than in a vacuum. To account for this, we use a correction factor (k), which typically ranges from 0.94 to 0.98.

The Practical Formula

For a common half-wave dipole antenna, a simplified and very popular formula in feet is:

Length (feet) = 468 / Frequency (MHz)

This formula has the correction factor built-in. Our calculator uses a more precise method by allowing you to adjust the Velocity Factor for even greater accuracy.

Common Antenna Types

Half-Wave Dipole

This is one of the most common and fundamental antenna types. It consists of two elements, each a quarter-wavelength long, making the total length a half-wavelength. It's typically fed in the center.

<-- 1/4 Wave --> Feed <-- 1/4 Wave -->

Total Length = 1/2 Wavelength

Quarter-Wave Vertical

Also known as a Marconi antenna, this type is essentially half of a dipole. It uses a single radiating element that is a quarter-wavelength long, mounted perpendicular to a conductive surface called a ground plane.

Radiator = 1/4 Wavelength

(Requires Ground Plane)

Advanced: The Velocity Factor (Vf)

The Velocity Factor (Vf) is a crucial concept for precise antenna calculations. It represents the speed of radio waves in a specific conductor relative to their speed in a vacuum. It's always a value less than 1.

Using the correct Vf for your antenna wire or transmission line adjusts the calculated physical length to match the required electrical length, resulting in a more resonant and efficient antenna. If you don't know the exact Vf, a value of 0.95 to 0.97 is a good starting point for typical copper wire antennas.