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varistor

A varistor, short for voltage-dependent resistor, is a two-terminal nonlinear electronic device used primarily for surge suppression. It exhibits a highly non-linear current–voltage relationship: at normal operating voltages it presents a high resistance, but when the voltage exceeds a certain threshold, its resistance collapses rapidly and it conducts strongly to clamp the voltage on the protected circuit.

Most varistors are ceramic zinc oxide (ZnO) devices with dopants at the grain boundaries. The active material

Ratings describe the voltage at which clamping begins and the energy the device can absorb. Varistors have

Common forms include disc-type radial-leaded MOVs for through-hole mounting and surface-mount MOVs for automated assemblies. They

is
a
polycrystalline
zinc
oxide
main
phase
with
small
amounts
of
metal
oxides
that
create
a
network
of
grain-boundary
barriers.
Electrodes
are
placed
on
opposite
faces,
forming
a
two-terminal
component.
The
result
is
a
symmetric
I–V
response
with
a
sharp
turn-on,
making
varistors
suitable
for
both
line-to-line
and
line-to-ground
protection.
a
nominal
varistor
voltage
(V_VR
or
V_nom),
often
chosen
so
the
device
begins
to
conduct
around
the
normal
peak
voltage
of
the
system
(for
example,
many
line-voltage
MOVs
are
rated
around
275
VAC,
corresponding
to
a
varistor
voltage
in
the
hundreds
of
volts).
Clamping
voltage
is
specified
at
a
defined
surge
current,
and
energy
or
surge
ratings
quantify
how
much
energy
the
device
can
absorb.
Temperature
can
shift
the
behavior,
and
leakage
increases
with
temperature;
repeated
surges
can
cause
gradual
degradation
and
eventual
failure
(often
to
a
short
or
open
circuit).
are
widely
used
across
power
supplies,
consumer
electronics,
and
telecom
equipment
to
protect
sensitive
circuits
from
voltage
transients.
Standards
such
as
IEC
61000-4-5
govern
surge
environments
in
which
MOVs
are
employed.