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voltagesensorområde

Voltagesensorområde, or voltage sensor range, is the span of voltage that a sensor can measure and report with useful accuracy. It is defined by the sensor’s input circuit, signal conditioning, and protection features that limit the maximum and minimum voltages that can be applied without damage or significant error. The range is typically specified as a minimum and maximum voltage along with the expected accuracy within that span.

In many systems the sensor output is scaled to a standard reference, such as an ADC input

Other factors include resolution (the smallest detectable voltage step), accuracy (deviation from the true voltage), linearity,

Common sensor types include resistor dividers for DC voltages, opto-isolated or Hall-effect sensors for higher voltages,

Choosing an appropriate voltagesensorområde requires considering the expected voltage levels, safety, required accuracy, and the processing

of
a
microcontroller.
For
example,
a
sensor
may
accept
0
to
60
volts
and
scale
it
to
0
to
5
volts;
the
voltagesensorområde
would
be
0–60
V,
while
the
usable
conversion
range
is
0–5
V
at
the
ADC.
The
scaling
determines
the
effective
measurement
range
that
can
be
realized
by
the
controller,
subject
to
isolation
and
protection
limits.
temperature
drift,
and
response
time.
The
range
can
be
broadened
with
multiple
stages
such
as
instrumentation
amplifiers
or
isolation
barriers,
but
each
stage
introduces
potential
errors
and
may
limit
bandwidth.
and
dedicated
voltage
sensor
ICs.
Specifications
to
check
are
the
input
range,
isolation
voltage,
input
impedance,
and
maximum
common-mode
voltage.
hardware
available.
Calibration
against
a
known
reference
is
recommended
to
verify
the
stated
range
and
accuracy.