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Coaxial Cable Loss Calculator

Calculators / Coaxial Cable Loss

Coaxial Cable Loss
Calculator

Calculate coaxial cable attenuation, power loss, and signal level at the output for any cable type, frequency, and length. Essential for RF system design, antenna feed line analysis, and transmission line loss estimation.

▶ Start Calculating 📖 Theory
Inner Dielectric Outer (shield) Cross-Section Pin = — Pout = — Loss = — dB L = — m
Frequency Tuning 144.00 MHz
1 MHz3 GHz
Inner Conductor Dielectric Outer Shield

⚙ Coaxial Cable Loss Engine

Higher frequency → higher attenuation

Total run length including all bends

20 dBm = 100 mW typical transceiver output

LMR-400 selected: loss ≈ 1.5 dB/30 m at 100 MHz

Advanced Parameters

Active when “Custom” cable selected

dB

PL-259 ≈ 0.1–0.3 dB, N-type ≈ 0.1 dB, SMA ≈ 0.05 dB

Typically 2 (one each end). Add for barrel connectors.

°C

Loss increases ~0.1%/°C above 20°C for copper

Calculated Results

Total Cable Loss dB
Loss severity
Output Power (Pout)
Output Power (dBm)
Power retained
Power lost (heat)
Attenuation (dB/100 ft)
Attenuation (dB/100 m)
Cable loss only
Connector loss
Velocity Factor (VF)
Impedance (Z₀)
Electrical length
Select cable type and enter values above.

📖 Theory

Coaxial cable attenuation (loss) has two components: conductor loss (∝ √f) and dielectric loss (∝ f). Together they determine total signal loss per unit length.

Attenuation vs Frequency

α(f) = A·√f + B·f

A = conductor loss coefficient, B = dielectric loss coefficient. f in MHz.

Total Loss

Loss(dB) = α · L + N·Lc

α = dB/m at frequency f, L = length (m), N = connectors, Lc = connector loss.

Output Power

Pout(dBm) = Pin(dBm) − Loss(dB)
Pout(W) = Pin · 10^(−Loss/10)

As a rule of thumb: every 3 dB of loss halves the power. 10 dB loss = 90% of power dissipated as heat in the cable. Keep feed lines as short as possible and use the lowest-loss cable that fits your budget.

📊 Loss vs Frequency & Length Viewer

Live Charts | ◉ Loss curve updates with cable selection
Chart Type
Length 10 m
1 m200 m
Max Freq 1000 MHz
Loss (dB) vs Frequency Frequency (MHz) → Loss (dB)
Feed Line Design Insights

Select a cable type and enter your frequency and length to see design insights.

Common Applications

⚙️

RF System Design

Calculate total signal budget including transmitter, cable loss, and receiver sensitivity to ensure link margin.

📡

Antenna Feed Line

Size the coax run from transceiver to antenna. Minimise loss — every dB lost in the cable wastes transmit power and degrades receive sensitivity.

📺

TV / CATV Distribution

RG-6 and RG-59 attenuation for cable TV signal distribution. Determine if amplifiers are needed for long runs.

🔬

Test & Measurement

Cable loss in test setups affects measurement accuracy. Calibrate out cable loss when measuring antenna gain or signal levels.

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