Alvarion BREEZENET BU-DS.11 Manual De Usuario
BreezeNET DS.11 Series User Manual
C-2
P
dBm
= 10 x Log P
mw
For example:
1 Watt = 1000 mW; P
dBm
=
10 x Log 1000 = 30 dBm
100
mW;
P
dBm
= 10 x Log 100 = 20 dBm
For link budget calculations, the dBm convention is more convenient than the
Watts convention.
Watts convention.
Attenuation
Attenuation (fading) of an RF signal is defined as follows:
Figure C-2: Attenuation of an RF signal
P
in
is the incident power level before attenuation
P
out
is the output power level after attenuation
Attenuation is expressed in dB as follows:
P
dB
= -10 x Log (P
out
/P
in
)
For example: If, due to attenuation, half the power is lost (P
out
/P
in
=
1/2),
attenuation in dB is -10 x Log (1/2) = 3
attenuation in dB is -10 x Log (1/2) = 3
dB
Path Loss
Loss of power of an RF signal traveling (propagating) through space. It is expressed
in dB. Path loss depends on:
♦ The distance between transmitting and receiving antennas
♦ Line of sight clearance between the receiving and transmitting antennas
♦ Antenna height
in dB. Path loss depends on:
♦ The distance between transmitting and receiving antennas
♦ Line of sight clearance between the receiving and transmitting antennas
♦ Antenna height
Free Space Loss
Attenuation of the electromagnetic wave while propagating through space. This
attenuation is calculated using the following formula:
attenuation is calculated using the following formula:
Free space loss = 32.4 + 20xLog(F
MHz
) + 20xLog(R
Km
)
F is the RF frequency expressed in MHz.
R is the distance between the transmitting and receiving antennas (expressed in
Km).
Km).
At 2.4 GHz, this formula is: 100+20xLog(R
Km
)