Transcript What`s a dB
What’s a dB Robert Orndorff, W4BNO RATS, April 2015 What’s a dB • It’s one tenth of a Bel • Named for Alexander Graham Bell • Originally used in telephone system measurements in the early 20th century • Based on MSC (Miles of Standard Cable) and TU (Transmission Unit) • Bel is seldom used without “deci” What’s a dB • • • • dB is a ratio Measurement is compared to a reference level dB alone is not meaningful Generally used to measure power or power changes • Many uses, only discussing how it is used in Amateur Radio What’s a dB • dBm – dB referenced to 1 milliwatt • dBV – dB referenced to 1 volt • dBu – dB referenced to 1 milliwatt into a 600 ohm load, or around 0.7746 millivolts. Typically used in audio applications • Have a calculator handy, check my work! What’s a dB Formula for dB when referencing Power P2 dBm 10 log10 P1 What’s a dB Formula for dB when referencing voltage V 2 dBV 20 log10 V1 Why use dB? • When dealing with very small or very large measurements, dB is useful • You could say: 0.000000001 mW -90 dBm Why use dB? • A negative dBm reading indicates powers of 10 on the right side of the decimal. • Negative dBm is less than the reference value. • 0 dBm = 1 milliwatt • -30 dBm = 0.001 milliwatts • -50 dBm = 0.00001 milliwatts • See a pattern here? Why use dB? • A positive dBm reading indicates powers of 10 on the left side of the decimal. Positive dBm is more than the reference value. • 100 milliwatts is equal to +20 dBm. • 1 watt (1000 milliwatts) equals +30 dBm • 10 watts equals +40 dBm • Power doubles every 3 dB Why use dB? • • • • • Power doubles every 3.010299956 dB dB=10*log(P2/P1) dB=10*log(2) 10*log(2) = 3.010299956…… Close enough to say that power doubles every 3 dB change 3 dB changes dBm 0 3 6 9 12 15 18 21 24 27 mW 1.00000000 1.99526231 3.98107171 7.94328235 15.84893192 31.62277660 63.09573445 125.89254118 251.18864315 501.18723363 V at 50 ohms 0.22360679775 0.31585299705 0.44615421692 0.63020958209 0.89019469569 1.25743342968 1.77617192929 2.50890953583 3.54392891542 5.00593264850 dBm vs mW 500 450 400 350 milliWatt 300 250 mW 200 150 100 50 0 0 5 10 15 dBm 20 25 30 dBm vs mW (logarithmic scale) milliWatt 100 mW 10 1 0 5 10 15 dBm 20 25 30 Industry specific use dBsr is a Scaled Reading. A scaled reading is obtained when using equipment intended for 600 ohm systems to read voltages on a 50 ohm system. Telephone and communications techs doing RF (power line carrier) work. Watts 0.001 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5 8 8.5 9 9.5 10 10.5 11 11.5 12 dBm 0.0000 26.9897 30.0000 31.7609 33.0103 33.9794 34.7712 35.4407 36.0206 36.5321 36.9897 37.4036 37.7815 38.1291 38.4510 38.7506 39.0309 39.2942 39.5424 39.7772 40.0000 40.2119 40.4139 40.6070 40.7918 dBsr -10.7918 16.1979 19.2082 20.9691 22.2185 23.1876 23.9794 24.6489 25.2288 25.7403 26.1979 26.6118 26.9897 27.3373 27.6592 27.9588 28.2391 28.5024 28.7506 28.9854 29.2082 29.4201 29.6221 29.8152 30.0000 Volts at Volts at 50 ohms 600 ohms 0.2236 0.7746 5.0000 17.3205 7.0711 24.4949 8.6603 30.0000 10.0000 34.6410 11.1803 38.7298 12.2474 42.4264 13.2288 45.8258 14.1421 48.9898 15.0000 51.9615 15.8114 54.7723 16.5831 57.4456 17.3205 60.0000 18.0278 62.4500 18.7083 64.8074 19.3649 67.0820 20.0000 69.2820 20.6155 71.4143 21.2132 73.4847 21.7945 75.4983 22.3607 77.4597 22.9129 79.3725 23.4521 81.2404 23.9792 83.0662 24.4949 84.8528 P dB 10log 2 P1 V dB 20log 2 Z of V1 and V2 must be equal V1 P dBm 10log 2 P ower referencedt o1 milliwat t 0.001 V2 dBm 20log Z of V1 , V2 50 0.2236 V2 dBm 20log Z of V1 , V2 600 0.7746 V2 dBsr 20log Z of V2 50, Z of V1 600 0.7746 P2 dBsr 10log 0 . 012 Z of P2 50, P1 P ower in a 50 load at 0.7746volt s V2 10 P2 10 dB 20 dB 10 V1 P1 S units • The amount of signal strength required to move an S meter indication from one marking to the next. • S meter is a microammeter connected to detector or in the IF stage, full scale 50 – 100 µA S units • S9 originally defined as 50µV at the input of the receiver (1930s). Input impedance was not standardized, so this was not necessarily a measure of power. • In 1981 the IARU defined S9 as -73 dBm (50µV at 50 ohms) on HF. For VHF S9 is equal to -93 dBm, or 5µV at 50 ohms • 1 S unit is equal to 6 dB • 1 S unit is equal to a voltage ratio of two, or a power ratio of four S unit, dBm, milliWatt S S0 S1 S2 S3 S4 S5 S6 S7 S8 S9 dBm -127 -121 -115 -109 -103 -97 -91 -85 -79 -73 mW mV at 50 ohms 0.000000000000199526 0.00009988149 0.000000000000794328 0.00019928977 0.000000000003162278 0.00039763536 0.000000000012589254 0.00079338686 0.000000000050118723 0.00158301490 0.000000000199526231 0.00315852997 0.000000000794328235 0.00630209582 0.000000003162277660 0.01257433430 0.000000012589254118 0.02508909536 0.000000050118723363 0.05005932649 What about antenna gain? • • • • • My antenna has 3 dB gain. What does that mean? (group discussion) Voltage gain? Power gain? What about antenna gain? • My antenna has 3 dB gain. • Did you mean 3 dBi? • Did you mean 3 dBd? What about antenna gain? • dBi = Gain relative to an isotropic radiator – An isotropic antenna is an ideal antenna that radiates its power uniformly in all directions. • • • • dBd = Gain relative to a dipole dBd is 2.15 lower than dBi 3 dBi = 0.85 dBd Antenna sales brochures and advertisements say ???. Top of the Rock, NYC Questions / Discussion • http://en.wikipedia.org/wiki/Decibel • http://en.wikipedia.org/wiki/S_meter • http://en.wikipedia.org/wiki/Antenna_gain