5motor control (mctrl) – Lenze 8400 BaseLine D User Manual
Page 78
5
Motor control (MCTRL)
5.3
Defining current and speed limits
78
Lenze · 8400 BaseLine D · Reference manual · DMS 5.5 EN · 01/2014 · TD05
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How to adapt the peak current limitation:
V/f characteristic control (VFCplus):
• Reduce the slip compensation with
.
V/f control (VFCplus + encoder):
• Reduce V
min
boost in
.
Sensorless vector control (SLVC):
• Reduce the slip compensation with
.
• Reduce the limitation of the torque in motor mode via nTorqueMotLimit_a (
) and
the limitation of the torque in generator mode via nTorqueGenLimit_a (
).
Note!
Highly dynamic applications
(that have e.g. too short acceleration/deceleration times or excessively changing loads)
The overcurrent disconnection may respond (fault message OC1), if the setting of the
maximum current in motor mode in
approximately corresponds to the maximum
permissible value of the respective inverter.
Remedies:
• Increase of the acceleration and deceleration ramp times
• Reduction of the maximum current in motor mode (
)
• Reduction of the maximum current in generator mode (
)
• Adaptation of the indirect peak current limitation (procedure depends on the selected
motor control mode, see below)
• Reduction of the reset time of the current limiting controller (
Influencing the torque in motor/generator mode
The torque in motor and generator mode can be limited via the nTorqueMotLim and
nTorqueGenLim process signal inputs.
• If V/f characteristic control (VFCplus) is selected, limitation is indirectly performed via
a so-called I
max
controller.
• If sensorless vector control (SLVC) is selected, the limitation has a direct effect on the
torque-producing current component.
If keypad control is selected, the nTorqueMotLim and nTorqueGenLim process signals can
be parameterised via
.