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dbi

dBi stands for decibels relative to an isotropic radiator. It is a unit of antenna gain that expresses how much power an antenna directs in a particular direction compared with an ideal isotropic antenna that radiates equally in all directions. Gain expressed in dBi is a logarithmic ratio: G(dBi) = 10 log10(G_linear), where G_linear is the linear gain relative to an isotropic source. An antenna with 0 dBi is, in principle, equivalent to isotropic in its reference, while positive dBi values indicate more focused radiation in specific directions.

There is a related unit, dBd, decibels relative to a half-wave dipole. Since a half-wave dipole has

Gain reflects the shape of the radiation pattern and not the antenna’s efficiency. A higher dBi often

about
2.15
dBi
of
gain,
G(dBi)
=
G(dBd)
+
2.15.
When
comparing
antennas,
it
is
important
to
note
which
reference
is
used,
because
the
numerical
value
depends
on
the
reference.
Many
vendors
specify
gain
in
dBi
or
provide
a
conversion
to
dBd.
accompanies
a
narrower
beam
and
greater
directivity,
but
it
does
not
by
itself
indicate
higher
total
radiated
power
if
efficiency
is
low.
In
wireless
design,
antenna
gain
combines
with
transmitter
power,
cable
and
connector
losses,
and
environmental
factors
to
determine
effective
coverage
and
link
performance.
The
term
is
widely
used
for
Wi‑Fi,
cellular,
satellite,
and
other
RF
links
to
compare
potential
coverage
and
link
margin.
Real-world
results
depend
on
frequency,
installation,
polarization,
and
surroundings.