2 adapting the vmin boost, Adapting the vmin boost, Adapting the vmin boost ( 166) – Lenze 8400 TopLine User Manual
Page 166: 5motor control (mctrl)
5
Motor control (MCTRL)
5.4
V/f characteristic control (VFCplus)
166
Lenze · 8400 TopLine · Reference manual · DMS 6.0 EN · 06/2014 · TD05/TD14
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
5.4.3.2
Adapting the Vmin boost
The V
min
boost (
) of the motor voltage serves to select a load independent magnetising
current which is required for asynchronous motors. The torque behaviour of the motor can be
optimised by adapting the setting in
The nBoost_a process signal at the SB
serves to carry out a V
min
boost as well:
The general linear and quadratic V/f characteristics are shown in the illustrations below. The
illustrations show the impacts of the parameters used to adapt the characteristic shape.
[5-5]
Representation of the linear V/f characteristic (on the left) and quadratic V/f characteristic (on the right)
Identifier
DIS code | data type
Information/possible settings
nBoost_a
| INT
Process signal for the V
min
boost
and has thus an increasing or decreasing effect.
• This signal serves to implement a load-dependent Vmin boost to improve the
torque behaviour in different load states, as for instance in case of operation in
generator or motor mode.
• Scaling: 16384 ≡ 100 % rated device voltage V
FU
(400 V or 230 V)
Stop!
Values selected too high may cause the motor to heat up due to the resulting
current!
Note!
The V
min
boost has an effect on output frequencies below the V/f base frequency
(
).
C00015
C00016
C00015
2
C00016
2
V
[V]
out
f [Hz]
V
(100 %)
rmot
1/N/PE AC 264 V
3/PE AC 264 V
3/PE AC 550 V
1/N/PE AC 180 V
3/PE AC 100 V
3/PE AC 320 V
C00015
C00016
V
[V]
out
f [Hz]
V
(100 %)
rmot
1/N/PE AC 264 V
3/PE AC 264 V
3/PE AC 550 V
1/N/PE AC 180 V
3/PE AC 100 V
3/PE AC 320 V