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RF Link Budget Calculator

Complete RF link budget using the Friis transmission equation. Enter TX power, gains, losses and distance to get received power, SNR, link margin and system sensitivity. Essential for wireless system design.

// TX Chain

TX Output Power (P_TX)

dBm

TX Cable / Feed Loss

TX Antenna Gain (G_TX)

dBi

TX Antenna Pointing Loss

// Channel

Frequency

Distance (d)

Additional Path Loss (rain, obstacles)

// RX Chain

RX Antenna Gain (G_RX)

dBi

RX Antenna Pointing Loss

RX Cable / Feed Loss

System Noise Figure (NF)

Noise Bandwidth (B)

Required SNR (demodulation)

Implementation Margin

⚠ Please check your inputs.

// Link Budget Results

📡

Enter parameters and click Calculate

TX Side

TX Power—dBm

TX Total Loss—dB

EIRP—dBm

EIRP (Watts)—W

Channel

Free-Space Path Loss (FSPL)—dB

Total Path Loss—dB

Wavelength λ—mm

RX Side

Received Power (P_RX)—dBm

Thermal Noise Floor—dBm

System Sensitivity (S_min)—dBm

Received SNR—dB

Link Quality

Link Margin—dB

Budget Waterfall

Friis Transmission Equation
P_RX = P_TX + G_TX − L_TX + G_RX − L_RX − FSPL − L_extra
FSPL = 20·log₁₀(4πd/λ) = 20·log₁₀(4πdf/c) dB
S_min = −174 + NF + 10·log₁₀(B) + SNR_req dBm
Link Margin = P_RX − S_min − Implementation Margin

About the RF Link Budget Calculator

A link budget is an accounting of all the gains and losses in a radio communication system from the transmitter output to the receiver input. It determines whether there is enough signal margin for the link to work reliably under the given conditions.

Free Space Path Loss

Even in a perfect vacuum with no obstacles, radio waves spreading out in all directions lose power as they travel. Free space path loss (FSPL) follows the inverse square law: FSPL = 20*log10(4*pi*d/lambda) dB. At 2.4 GHz over 100 metres, FSPL is approximately 80 dB. At 60 GHz (mmWave), the same distance gives 108 dB of path loss â€” one reason mmWave systems require high-gain directional antennas.

EIRP â€” Effective Isotropic Radiated Power

EIRP is the transmit power plus antenna gain, referenced to an isotropic radiator. A 20 dBm transmitter with a 5 dBi antenna has an EIRP of 25 dBm. EIRP is the figure that regulatory bodies (FCC, ETSI) limit for unlicensed devices. The higher the EIRP, the further the signal travels â€” but the regulatory limits exist to prevent interference between systems.

Link Margin

Link margin is the difference between the received signal power and the minimum required receiver sensitivity. A link margin of 10 dB means the system can tolerate 10 dB of additional loss (from rain, reflections, obstacles or antenna misalignment) before the link fails. Minimum acceptable margins are typically 10-20 dB for reliable outdoor links and 3-6 dB for indoor consumer devices.