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Noninverting

Noninverting describes an amplifier configuration in which the input signal is applied to the noninverting input of an operational amplifier. The output is in phase with the input, unlike inverting configurations where the output is inverted by 180 degrees. In many contexts, noninverting denotes a stage where feedback preserves the input’s polarity.

In a typical noninverting op-amp amplifier, the input is connected to the + input. Feedback is provided

The noninverting configuration offers very high input impedance, because the signal is fed into the op-amp

Applications include signal amplification with minimal phase distortion, sensor conditioning, active filters, and audio preamplification. Compared

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from
the
output
to
the
-
input
via
a
resistor
network
consisting
of
R1
from
the
-
input
to
ground
and
R2
from
the
output
to
the
-
input.
The
closed-loop
gain
is
1
+
R2/R1.
A
unity-gain
configuration
(voltage
follower)
is
achieved
by
placing
the
output
directly
to
the
-
input
(R2
=
0).
input.
This
makes
it
suitable
for
buffering
and
interfacing
with
high-impedance
sources.
However,
the
gain
is
limited
by
the
op-amp’s
open-loop
gain
and
finite
bandwidth;
the
product
of
closed-loop
gain
and
bandwidth
is
approximately
constant
(gain-bandwidth
trade-off).
Real
devices
also
introduce
offset
voltage
and
input
bias
currents,
which
can
contribute
to
output
errors.
with
inverting
stages,
noninverting
amplifiers
have
higher
input
impedance
and
noninverting
gain,
at
the
cost
of
potentially
higher
noise
and
lower
stage
isolation
in
some
designs.