EasyManuals Logo

Omron SYSDRIVE 3G3RV Series User Manual

Omron SYSDRIVE 3G3RV Series
446 pages
To Next Page IconTo Next Page
To Next Page IconTo Next Page
To Previous Page IconTo Previous Page
To Previous Page IconTo Previous Page
Page #385 background imageLoading...
Page #385 background image
T
roubleshooting
7
-
2
3
nOscillation
and
hunting
are
occurring
with
V/f
control.
The
gain
adjustment
may
be
insufficient.
Reset
the
gain
to
a
more
effective
level
by
adjusting
parameters
C4-
02
(Torque
Compensation
Primary
Delay
Time
Constant),
N1-02
(Hunting
Prevention
Gain),
and
C3-02
(Slip
Compensation
Primary
Delay
Time)
in
order.
Lower
the
gain
setting
and
raise
the
primary
delay
time
setting.
nOscillation
and
hunting
are
occurring
with
V/f
w/PG
control.
The
gain
adjustment
may
be
insufficient.
Adjust
the
various
types
of
speed
control
loop
(ASR)
gain.
If
the
oscillation
cannot
be
eliminated
in
this
way,
set
the
hunting
prevention
selection
(parameter
N1-01)
to
0
(disabled)
and
then
try
adjusting
the
gain
again.
nOscillation
and
hunting
are
occurring
with
PID
control.
If
there
is
oscillation
or
hunting
during
PID
control,
check
the
oscillation
cycle
and
individually
adjust
P,
I,
and
D
parameters.
(Refer
to
page
6-120.)
nPID
control
diverges.
The
following
causes
are
possible.
Feedback
is
not
being
input.
If
no
feedback
is
being
input
and
the
detection
value
is
zero,
PID
control
will
fail
to
function
and
the
output
will
diverge.
This
will
cause
the
motor
speed
to
increase
to
the
maximum
frequency.
Check
for
a
break
in
the
feedback
signal
or
for
an
incorrect
setting
of
either
H3-09
(multi-function
analog
input
terminal
A2
function
selection)
=
B
or
H6-01
(pulse
train
input
function
selection)
=
1.
Also
check
to
make
sure
that
the
PID-related
parameters
are
correct.
The
target
values
and
detection
values
do
not
agree.
PID
control
brings
the
difference
(error)
between
the
target
value
and
detection
value
to
zero.
Because
of
this,
it
is
necessary
to
unify
the
input
levels
for
the
target
value
and
detection
value.
Set
the
gain
so
that
the
level
of
detection
coincides.
Example:
H3-10/H3-11
(gain
(terminal
A2)/bias
(terminal
A2))
or
H6-03/H6-04
(pulse
train
input
gain/pulse
train
input
bias)
The
Inverter
output
frequency
and
detection
value
relationship
is
reversed.
If
the
Inverter
is
set
so
that
the
detection
value
decreases
when
the
output
frequency
increases,
the
PID
control
will
diverge.
Correct
this
by
switching
the
forward/reverse
status
of
b5-09
(PID
output
characteristics
selec-
tion).
For
example,
if
0
is
being
used,
change
it
to
1.
nAutotuning
has
not
been
performed
with
vector
control.
Vector
control
will
not
perform
if
autotuning
has
not
been
performed.
Perform
autotuning
separately
for
the
motor,
or
set
the
motor
constants
through
calculations.
Alternatively,
change
the
Control
Method
Selection
(A1-02)
to
V/f
control.
K
KK
K If
the
Motor
Rotates
Even
When
Inverter
Output
Is
Stopped
If
the
motor
rotates
even
when
the
Inverter
output
is
stopped,
the
DC
injection
braking
is
insufficient.
If
the
motor
continues
operating
at
low
speed,
without
completely
stopping,
and
after
a
deceleration
stop
has
been

Table of Contents

Questions and Answers:

Question and Answer IconNeed help?

Do you have a question about the Omron SYSDRIVE 3G3RV Series and is the answer not in the manual?

Omron SYSDRIVE 3G3RV Series Specifications

General IconGeneral
BrandOmron
ModelSYSDRIVE 3G3RV Series
CategoryInverter
LanguageEnglish

Related product manuals