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actuating

Actuation is the process of converting energy into mechanical motion or force to perform work. An actuator is the device that performs actuation, responding to a control signal or input to produce displacement, velocity, torque, or force. Actuation is a central function in automated systems and control engineering, linking electrical, hydraulic, pneumatic, or thermal energy sources to mechanical output.

Major actuation technologies include electric actuators (such as DC motors, servo motors, and stepper motors) that

Design and performance considerations include force or torque, displacement (stroke), speed, precision, efficiency, and controllability. Real-world

Applications span robotics, automated manufacturing, aerospace and automotive actuation, valve and damper control, process industries, CNC

convert
electrical
energy
to
rotational
or
linear
motion;
hydraulic
actuators
that
use
pressurized
fluid
to
generate
high
force
and
linear
movement;
and
pneumatic
actuators
that
use
compressed
air
for
fast,
moderate-force
linear
actuation.
Other
classes
include
piezoelectric
and
shape
memory
alloy
actuators
for
precise
or
rapid
micro-displacements,
as
well
as
magnetic,
electroactive
polymer,
and
hybrid
solutions.
Many
systems
combine
several
actuation
methods
or
use
integrated
power
electronics
and
control.
actuators
exhibit
nonlinearity,
backlash,
stiction,
and
leakage,
which
often
necessitate
feedback
for
accuracy.
Closed-loop
control
uses
sensors
such
as
encoders,
linear
scales,
or
position
sensors
to
regulate
output;
open-loop
actuation
relies
on
known
input
without
feedback.
Environmental
conditions,
temperature,
vibration,
and
duty
cycle
affect
performance
and
lifetime.
machines,
and
consumer
devices.
Selection
among
actuator
types
depends
on
load
requirements,
required
speed
and
precision,
available
energy,
duty
cycle,
environmental
constraints,
safety
considerations,
and
maintenance
needs.