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zerodrift

Zerodrift is a term used in engineering to describe approaches, devices, or algorithms that aim to minimize or eliminate drift in a measurement system over time. Drift refers to slow, systematic changes in a sensor’s baseline or offset, which can degrade accuracy even when the true value remains constant. Zerodrift encompasses hardware solutions, such as zero-drift or self-calibrating sensors and zero-drift amplifiers, as well as software strategies that continuously estimate and compensate for bias.

In hardware, methods include reference stabilization, temperature compensation, and auto-calibration techniques that reduce offset drift, such

Applications span precision metrology, industrial instrumentation, aerospace and automotive sensing, medical devices, and robotics, where long-term

Evaluation typically uses metrics such as bias stability, drift rate (offset change over time), and Allan deviation,

See also drift, bias stability, chopper stabilization, self-calibrating sensors, zero-drift op-amps.

as
chopper
stabilization.
In
software,
drift
can
be
mitigated
by
periodic
calibration
against
known
references,
adaptive
bias
estimation,
Kalman
filtering,
and
online
drift
tracking.
Hybrid
approaches
combine
sensor
data
fusion
with
continuous
calibration
to
maintain
accuracy
in
changing
environments.
stability
is
critical.
Zerodrift
is
particularly
valued
in
low-drift
and
high-accuracy
contexts,
as
it
reduces
the
need
for
frequent
recalibration.
assessed
under
defined
environmental
conditions.
Limitations
include
added
cost,
complexity,
and
potential
trade-offs
with
noise
performance
or
response
time.