'dBm' is an abbreviation for the power ratio in
decibel (dB) of the measured power referenced to one
milliwatt (mW). It is used in radio, microwave and fiber optic networks as a convenient measure of absolute
power because of its capability to express both very large and very small values in a short form. dBm (or dBmW) and dBW are independent of impedance (as opposed to
dBV which is dependent, for example).
Since it is referenced to the
watt, it is an absolute unit, used when measuring absolute power. It should not be confused with 'dB', a
dimensionless unit, which is used when measuring the ratio between two values, such as
signal-to-noise ratio.
Unit conversions
Zero dBm equals one milliwatt. A 3 dB increase represents roughly doubling the power, which means that 3 dBm equals roughly 2 mW. For a 3 dB decrease, the power is reduced by about one half, making −3 dBm equal to about 0.5 milliwatt. To express an arbitrary power ''P'' as ''x'' dBm, or go in the other direction, the equations
:
, P in milliwatts
and
:
,
respectively, should be used. Below is a table summarizing useful cases:
| dBm level | Power | Notes |
|---|
| 80 dBm | 100 kW | Typical transmission power of a FM radio station |
| 60 dBm | 1 kW = 1000 W | Typical RF power inside a microwave oven |
| 40 dBm | 10 W |
| 36 dBm | 4 W | Typical maximum output power for a Citizens' band radio station (27 MHz) in many countries |
| 30 dBm | 1 W = 1000 mW | Typical RF leakage from a microwave oven - Maximum output power for DCS 1800 MHz mobile phone |
| 27 dBm | 500 mW | Typical cellular phone transmission power |
| 26 dBm | 400 mW | |
| 25 dBm | 316 mW |
| 24 dBm | 250 mW |
| 23 dBm | 200 mW |
| 22 dBm | 160 mW |
| 21 dBm | 125 mW | Maximum output from a UMTS/3G mobile phone (Power class 4 mobiles) |
| 20 dBm | 100 mW | Bluetooth Class 1 radio, 100 m range (maximum output power from unlicensed FM transmitter) |
| 15 dBm | 32 mW |
| 10 dBm | 10 mW |
| 5 dBm | 3.2 mW |
| 4 dBm | 2.5 mW | Bluetooth Class 2 radio, 10 m range |
| 3 dBm | 2.0 mW |
| 2 dBm | 1.6 mW |
| 1 dBm | 1.3 mW |
| 0 dBm | 1.0 mW = 1000 µW | Bluetooth standard (Class 3) radio, 1 m range |
| −1 dBm | 794 µW |
| −5 dBm | 316 µW |
| −10 dBm | 100 µW |
| −20 dBm | 10 µW |
| −30 dBm | 1.0 µW = 1000 nW |
| −40 dBm | 100 nW |
| −50 dBm | 10 nW |
| −60 dBm | 1.0 nW = 1000 pW |
| −70 dBm | 100 pW | Typical range (−60 to −80 dBm) of Wireless signal over a network |
| −80 dBm | 10 pW |
| −111 dBm | 0.008 pW | Thermal noise floor for commercial GPS signal bandwidth (2 MHz) |
| −127.5 dBm | 0.000178 pW | Typical received signal power from a GPS satellite |
| −174 dBm | 0.000004 fW | Thermal noise floor for 1 Hz bandwidth |
| −∞ dBm | 0.0 W |
In
United States Department of Defense practice,
unweighted measurement is normally understood, applicable to a certain
bandwidth, which must be stated or implied.
In
European practice,
psophometric weighting may be implied, as indicated by context; equivalent to
dBm0p, which is preferred.
See also
★
Zero dBm transmission level point
★
Decibel
References
External links
★
Conversion: voltage V to dBm, dBu, and dBV
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