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sensortype

Sensortype is a general term used to classify sensors according to their sensing principles and transduction methods. In engineering practice, identifying the sensortype of a device helps determine how measurements are obtained, what physical quantities can be measured, and how the resulting signals should be interpreted and processed.

Sensor classifications typically group devices by sensing mechanism and by output format. Common sensortypes include thermal

Non-contact versus contact, passive versus active, and analog versus digital are additional axes used to characterize

Data output, accuracy, resolution, and speed depend on the sensortype as well as the designed interface. Common

Applications span consumer electronics, automotive systems, industrial automation, environmental monitoring and medical devices. Understanding sensortype helps

sensors
(which
respond
to
temperature
via
resistance
or
voltage
changes),
optical
or
photonic
sensors
(which
detect
light
intensity
or
wavelength),
electrical
or
magnetic
sensors
(which
monitor
electrical
properties
or
magnetic
fields),
mechanical
sensors
(which
sense
displacement,
force
or
vibration).
sensortypes.
Some
sensors
combine
modalities
or
provide
both
raw
measurements
and
processed
data.
Examples
include
accelerometers
(MEMS
devices
measuring
acceleration),
photodiodes
and
cameras
(optical
sensing),
Hall
effect
sensors
(magnetic
field),
and
electrochemical
sensors
(chemical
species).
interfaces
include
analog
voltage
or
current,
and
digital
buses
such
as
I2C
or
SPI.
Calibration,
linearity,
environmental
tolerance,
and
power
consumption
are
key
considerations
when
selecting
a
sensortype
for
a
given
application.
in
sensor
selection,
integration
with
processing
systems,
and
interpretation
of
measurements
within
environmental
and
operational
constraints.