Decibel (dB) Converter
Sound Level Reference Table
| dB Level | Example | Perceived Loudness |
|---|---|---|
| 0 dB | Threshold of hearing | Barely audible |
| 20 dB | Rustling leaves | Very quiet |
| 40 dB | Library, quiet room | Quiet |
| 60 dB | Normal conversation | Moderate |
| 80 dB | City traffic | Loud |
| 100 dB | Jackhammer (nearby) | Very loud |
| 120 dB | Threshold of pain | Painful |
| 140 dB | Jet engine (close) | Dangerous |
Decibel (dB) Converter — Power, Voltage, and Sound
The decibel (dB) is a logarithmic unit used to express ratios of power, voltage, amplitude, or intensity. It is used across audio engineering, telecommunications, acoustics, electronics, and signal processing. This converter lets you convert any power or voltage ratio to decibels and back, with a reference table of common sound pressure levels.
What Is a Decibel?
The decibel is one tenth of a Bel (named after Alexander Graham Bell). Because the human ear perceives loudness on a logarithmic scale — a sound ten times more intense sounds roughly twice as loud — the logarithmic decibel scale naturally matches human perception. A 10 dB increase represents a 10× power increase, while a 20 dB increase represents a 100× power increase.
Power vs. Voltage Decibels
There are two standard decibel formulas. For power ratios: dB = 10 × log₁₀(P2/P1). For voltage or amplitude ratios: dB = 20 × log₁₀(V2/V1). The factor of 20 in the voltage formula arises because power is proportional to voltage squared (P = V²/R), so a 2× voltage ratio corresponds to a 4× power ratio, or 6 dB in both cases.
Key Reference Points
- +3 dB — approximately double the power (+6 dB doubles the voltage)
- +6 dB — approximately double the amplitude/voltage
- +10 dB — exactly 10× the power; perceived as roughly twice as loud
- 0 dB — unity gain (output equals input)
- −3 dB — the standard filter cutoff frequency (half power point)
Applications in Engineering
In audio engineering, amplifier gain and speaker sensitivity are specified in dB. In telecommunications, signal attenuation along cables is measured in dB/km. In RF engineering, antenna gain is expressed in dBi (dB relative to an isotropic antenna). Signal-to-noise ratios (SNR) in audio equipment and communications systems are given in dB.