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frequenzgesteuerte

Frequenzgesteuerte describes systems or components whose operation is determined primarily by the frequency of a control signal. In German engineering usage, the term is common in fields such as electrical drive technology, electronics and mechatronics, where frequency serves as a primary control parameter for speed, timing or oscillation characteristics.

A prominent area is the frequency-controlled drive, where the rotational speed of an AC motor is adjusted

Frequenzgesteuerte concepts also occur outside motor drives. In signal generation, frequenzgesteuerte Oszillatoren or generators produce signals

Advantages of frequency-controlled designs include adjustable performance, higher efficiency and reduced mechanical stress due to soft-starting.

See also: Frequenzumrichter, PWM, Regelungstechnik, Antriebstechnik.

by
varying
the
input
frequency.
This
is
typically
realized
with
a
frequency
converter
(Frequenzumrichter),
which
converts
input
power
to
a
variable-frequency
output.
By
changing
the
frequency
(and
often
the
associated
voltage
in
a
controlled
manner),
the
motor
speed
and
torque
can
be
set
to
match
performance
requirements.
This
approach
enables
energy
savings,
smoother
startup,
and
flexible
production
processes.
Additional
control
strategies,
such
as
V/f
(voltage-to-frequency)
regulation
and
protection
features,
are
commonly
employed.
whose
frequency
is
set
by
an
external
reference.
In
precision
instrumentation
and
communication
systems,
external
frequency
references
determine
the
behavior
of
oscillators,
synthesizers
and
test
equipment.
Limitations
may
involve
higher
system
complexity,
cost,
and
potential
electromagnetic
interference.
The
term
remains
broadly
used
across
engineering
disciplines
where
frequency
serves
as
a
principal
control
variable.