Antenna
gain
is measured in either dBi
or dBd.
It is important to note that antenna
gain
is different than amplifier
gain
. Antennas do not have a power source that allows the antenna
to create additional energy to boost the signal. An antenna
is similar to a reflective lens in principle - it takes the energy available from the source and focuses it over a wider or narrower area.
Antenna
gain
is then a measure of the amount of focus that an antenna
can apply to the incoming signal relative to one of two reference dispersion patterns. MaxStream specifies all antenna
gains in dBi
.
dBi
is the amount of focus applied by an antenna
with respect to an "Isotropic Radiator" (a dispersion pattern that radiates the energy equally in all directions onto an imaginary sphere surrounding a point source). Thus an antenna
with 2.1 dBi
of gain
focuses the energy so that some areas on an imaginary sphere surrounding the antenna
will have 2.1 dB more signal strength than the strength of the strongest spot on the sphere around an Isotropic Radiator.
dBd refers to the antenna
gain
with respect to a reference dipole antenna
. A reference dipole antenna
is defined to have 2.15 dBi
of gain
. So converting between dBi
and dBd is as simple as adding or subtracting 2.15 according to these formulas:
- dBi
= dBd + 2.15
- dBd = dBi
- 2.15
Specifying antenna
gain
in dBd means that the antenna
in question has the ability to focus the energy x dB more than a dipole.
Beam Width
Because higher gain
antennas achieve the extra power by focusing in on a smaller area it is important to remember that the greater the gain
, the smaller the area covered as measured in degrees of beam width (think of an adjustable beam flashlight). In many cases a high gain
antenna
is a detriment to the system performance because the system needs to have reception over a large area.
