Speed control under Real sensorless vector control, vector control, PM sensorless vector
Adjusting the speed control gain manually (Pr.819 = "0" No easy gain
tuning)
• The speed control gain can be adjusted for the conditions such as abnormal machine vibration, acoustic noise, slow
response, and overshoot.
• Pr.820 Speed control P gain 1="60% (initial value)" is equivalent to 120 rad/s (speed response of a single motor).
(Equivalent to the half the rad/s value during Real sensorless vector control or with the FR-A860-01440 or higher during
vector control.) Setting this parameter higher speeds up the response, but setting this too high causes vibration and
acoustic noise.
• Setting Pr.821 Speed control integral time 1 lower shortens the return time to the original speed during speed fluctuation,
but setting it too low causes overshoot.
Proportional gain
∗1
200 (100)rad/s
∗1
120 (60)rad/s
60%
(initial value )
The value in parentheses is applicable during Real sensorless vector control or with the FR-A860-01440 or higher during vector control.
Performing PM parameter initialization changes the settings. (Refer to
• Actual speed gain is calculated as below when load inertia is applied.
Load
fluctuation
Speed
Actual speed gain = Speed gain of a single motor
• Adjust in the following procedure:
1) Change the Pr.820 setting while checking the conditions.
2) If it cannot be adjusted well, change Pr.821 setting, and perform 1) again.
Movement condition
No.
1
Load inertia is high.
Vibration or acoustic noise
2
are generated from
machines.
3
Response is slow.
Return time (response time)
4
is long.
Overshoots or unstable
5
movements occur.
Pr.820
Setting
100%
∗2
Since increasing the proportional gain enhances the
response level and decreases the speed fluctuation.
Decreasing the integral time shortens the return time taken.
JM + JL
Set Pr.820 and Pr.821 higher.
If acceleration is slow, raise the setting by 10%s and then set the value to 0.8 to 0.9
Pr.820
the setting immediately before vibration/noise starts occurring.
If overshoots occur, raise the setting by double the setting and then set the value to 0.8
Pr.821
to 0.9 the setting where overshoots stop occurring.
Set Pr.820 lower and Pr.821 higher.
Lower the setting by 10%s and then set the value to 0.8 to 0.9 the setting
Pr.820
immediately before vibration/noise starts occurring.
If overshoots occur, raise the setting by double the setting and then set the value to 0.8
Pr.821
to 0.9 the setting where overshoots stop occurring.
Set Pr.820 higher.
If acceleration is slow, raise the setting by 5%s and then set the value to 0.8 to 0.9
Pr.820
the setting immediately before vibration/noise starts occurring.
Set Pr.821 lower.
Lower Pr.821 by half the current setting and then set the value to 0.8 to 0.9 the setting
immediately before overshoots or unstable movements stop occurring.
Set Pr.821 higher.
Raise Pr.821 by double the current setting and then set the value to 0.8 to 0.9 the setting
immediately before overshoots or unstable movements stop occurring.
page
145.)
JM
JM: Motor inertia
JL: Load inertia converted as the motor axis inertia
Adjustment method
control
167
PARAMETERS
5