dBm

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For other uses, see DBM (disambiguation)

A schematic showing the relationship between dBu (the voltage source) and dBm (the power dissipated as heat by the 600 Ω resistor)
A schematic showing the relationship between dBu (the voltage source) and dBm (the power dissipated as heat by the 600 Ω resistor)

dBm (sometimes dBmW) is an abbreviation for the power ratio in decibels (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. Compare dBW, which is referenced to one watt (1000 mW).

Since it is referenced to the watt, it is an absolute unit, used when measuring absolute power. By comparison, the decibel (dB) is a dimensionless unit, used for quantifying the ratio between two values, such as signal-to-noise ratio.

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[edit] 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 following equations may be used:

x = 10log10(P)

and

P = 10(x / 10)

with P power in mW and x power ratio in dBm. Below is a table summarizing useful cases:

dBm level Power Notes
80 dBm 100 kW Typical transmission power of FM radio station with 30-40 miles range
60 dBm 1 kW = 1000 W Typical combined radiated RF power of microwave oven elements
40 dBm 10 W
36 dBm 4 W Typical maximum output power for a Citizens' band radio station (27 MHz) in many countries
33 dBm 2 W Maximum output from a UMTS/3G mobile phone (Power class 1 mobiles)

Maximum output from a GSM850/900 mobile phone

30 dBm 1 W = 1000 mW Typical RF leakage from a microwave oven - Maximum output power for DCS 1800 MHz mobile phone

Maximum output from a GSM1800/1900 mobile phone

27 dBm 500 mW Typical cellular phone transmission power

Maximum output from a UMTS/3G mobile phone (Power class 2 mobiles)

26 dBm 400 mW
25 dBm 316 mW
24 dBm 250 mW Maximum output from a UMTS/3G mobile phone (Power class 3 mobiles)
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).

Typical wireless router transmission power.

15 dBm 32 mW Typical WiFi transmission power in laptops.
10 dBm 10 mW
6 dBm 4.0 mW
5 dBm 3.2 mW
4 dBm 2.5 mW Bluetooth Class 2 radio, 10 m range
3 dBm 2.0 mW More precisely (to 8 decimal places) 1.9952623 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
-3 dBm 501 µW
-5 dBm 316 µW
-10 dBm 100 µW Typical maximum received signal power (−10 to −30 dBm) of wireless network
-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 (802.11x) received signal power over a network
-80 dBm 10 pW
-111 dBm 0.008 pW = 8 fW Thermal noise floor for commercial GPS single channel signal bandwidth (2 MHz)
-127.5 dBm 0.178 fW = 178 aW Typical received signal power from a GPS satellite
-174 dBm 0.004 aW Thermal noise floor for 1 Hz bandwidth at room temperature (20C)
-192.5 dBm 0.00004 aW Thermal noise floor for 1 Hz bandwidth in outer space (4 kelvin)
-∞ dBm 0 W Zero power is not well-expressed in dBm (value is negative infinity)

The signal intensity (power per unit area) can be converted to received signal power by multiplying by the square of the wavelength and dividing by 4? (see Free-space path loss).

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, as indicated by context, equivalent to dBm0p, which is preferred.

The dBm is not a part of the International System of Units and therefore is discouraged from use in documents or systems that adhere to SI units (the corresponding SI unit is the watt). However the straight decibel (dB), being a unitless ratio of two numbers, is perfectly acceptable.[1]

[edit] See also

[edit] References

This article contains material from the Federal Standard 1037C (in support of MIL-STD-188), which, as a work of the United States Government, is in the public domain.

[edit] External links