Radiated Power Measurement: Difference between revisions
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more information can be found [http://en.wikipedia.org/wiki/DBm here] | more information can be found [http://en.wikipedia.org/wiki/DBm here] | ||
{{electronics}} |
Latest revision as of 17:18, 8 April 2009
Related wiki page: Feedlines, Capacity Hats, Decibels, Antenna Design, Gain, Bands, SWR, harmonics, Front-to-back ratio Electromagnetic Waves
Power Ratio dBm or dBmW
The power compared to a 1 milliwatt (1mW) source, expressed in decibels ( dB)
Formula:
<math> x = 10 \log_{10}(P/1 \ \mathrm{mW}) \, </math>
Where P is the power in watts (W)
This roughly equates to:
- Double the power = 3dB increase in dBm
- Halve the power = 3dB decrease in dBm
dBm level | Power |
---|---|
80 dBm | 100 kW |
60 dBm | 1 kW = 1000 W |
50 dBm | 100 W |
40 dBm | 10 W |
36 dBm | 4 W |
33 dBm | 2 W |
30 dBm | 1 W = 1000 mW |
27 dBm | 500 mW |
26 dBm | 400 mW |
25 dBm | 316 mW |
24 dBm | 250 mW |
23 dBm | 200 mW |
22 dBm | 160 mW |
21 dBm | 125 mW |
20 dBm | 100 mW |
15 dBm | 32 mW |
10 dBm | 10 mW |
6 dBm | 4.0 mW |
5 dBm | 3.2 mW |
4 dBm | 2.5 mW |
3 dBm | 2.0 mW |
2 dBm | 1.6 mW |
1 dBm | 1.3 mW |
0 dBm | 1.0 mW = 1000 µW |
−1 dBm | 794 µW |
−3 dBm | 501 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 |
−80 dBm | 10 pW |
−100 dBm | 0.1 pW |
−111 dBm | 0.008 pW = 8 fW |
−127.5 dBm | 0.178 fW = 178 aW |
−174 dBm | 0.004 aW |
−192.5 dBm | 0.00004 aW |
−∞ dBm | 0 W |
more information can be found here
Electronic Theory | |
Physical quantities | Current * Gain * Impedance * Power * Q of a circuit * Radiated Power Measurement * Reactance* Resistivity * Resonance * Voltage |
Components | Baluns * Bipolar-Junction Transistors * Capacitors * Diodes * Inductors* Lasers * Microphones * Resistors * Transformers * Wire |
Circuits | Attenuators * Digital Signal Processing (DSP) * Dummy load * Filters * LC filters * Power Supply Design * Rectifier Circuits |
Design | Amplifier Design * Oscillator Design |
Electromagnetic Waves | Relative power (Decibels) * Harmonics * Interference and BPL |