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frequencymodulation

Frequency modulation is a modulation technique in which information is encoded by varying the instantaneous frequency of a carrier wave around a fixed center frequency, while the carrier amplitude remains constant. The instantaneous frequency can be expressed as f_i(t) = f_c + k_f m(t), where f_c is the carrier frequency, m(t) is the modulating signal, and k_f is the frequency sensitivity (Hz per unit of m). The modulation index is often defined as β = Δf / f_m, with Δf representing the peak frequency deviation and f_m the highest frequency in the modulating signal.

Bandwidth in frequency modulation is determined by the deviation and the modulating spectrum. Carson's rule provides

History and use: Frequency modulation was developed and popularized by Edwin Howard Armstrong in the 1930s,

Demodulation and characteristics: FM demodulation relies on devices that convert frequency variations back into voltage variations,

a
practical
estimate:
BW
≈
2(Δf
+
f_m).
Wideband
FM
uses
larger
deviations
and
broader
bandwidth,
suitable
for
high-fidelity
transmissions,
while
narrowband
FM
employs
smaller
deviations
for
efficient
voice
communications.
offering
improved
noise
resistance
compared
with
amplitude
modulation.
It
is
widely
used
for
FM
radio
broadcasting
in
the
VHF
band,
as
well
as
professional
communications
links,
telemetry,
and
various
measurement
systems.
In
audio
applications,
FM
can
carry
stereo
signals
and
data
streams
(for
example
RDS
in
some
implementations).
such
as
discriminators,
phase-locked
loops,
or
digital
signal
processing
schemes.
A
key
advantage
of
FM
is
its
resilience
to
amplitude
nonlinearity
and
certain
noise
types,
since
information
is
encoded
in
frequency,
not
amplitude.
A
drawback
is
the
greater
bandwidth
requirement
and,
for
high-fidelity
systems,
the
need
for
more
complex
transmitters
and
receivers.