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MIC

Mic, short for microphone, is a device that converts acoustic energy (sound waves) into an electrical signal. It uses a diaphragm that vibrates in response to air pressure, and the vibration is transduced into an electrical current by various mechanisms depending on design. The most common types are dynamic microphones, condenser microphones, and ribbon microphones. Dynamic mics employ a moving coil attached to a diaphragm within a magnetic field; condenser mics use a charged capacitor with a movable diaphragm; ribbon mics use a delicate metal ribbon that also acts as a capacitor element. Electret microphones are a widely used subset of condenser designs that incorporate a permanently charged dielectric and typically require only small amounts of power from a preamp.

Microphones differ in polar pattern, which describes how they pick up sound from different directions. Common

Applications vary widely. Studio and live sound use mics for vocals and instruments; broadcasting and podcasting

patterns
include
omnidirectional
(sound
from
all
sides),
cardioid
(primarily
from
the
front),
supercardioid
and
hypercardioid
(more
focused
rear
rejection),
and
figure-eight
(front
and
back).
They
also
vary
in
sensitivity
and
impedance,
influencing
how
the
microphone
interacts
with
preamps
and
wireless
systems.
Condenser
mics
generally
offer
higher
sensitivity
and
wider
frequency
response
than
dynamic
mics,
but
require
external
power,
often
supplied
as
phantom
power
at
48
volts.
rely
on
compact
and
boundary
mics;
consumer
devices
integrate
electret
or
MEMS
microphones
for
communications
and
voice
interfaces.
The
development
of
microphones
over
the
20th
century,
together
with
advances
in
electronics
and
signal
processing,
has
expanded
their
use
across
recording,
telecommunications,
and
measurement
contexts.