ABB +N5600 Firmware Instructions page 492

492 Parameters
No. Name/Value
97.13 IR compensation
0.00 ... 50.00%
97.15 Motor model
temperature
adaptation
Disabled
Estimated
temperature
Measured
temperature 1
Measured
temperature 2
97.18 Hexagonal field
weakening
Off
On
Description
Defines the relative output voltage boost at zero speed (IR
compensation). The function is useful in applications with a
high break-away torque where direct torque control (DTC
mode) cannot be applied.
U / U
N
(%)
Relative output voltage with IR
compensation
100%
97.13
Field weakening point
50% of nominal frequency
See also section IR compensation for scalar motor control
page 95.
Voltage boost at zero speed in percent of nominal motor
voltage.
Selects whether the temperature-dependent parameters
(such as stator or rotor resistance) of the motor model adapt
to actual (measured or estimated) temperature or not.
See parameter group 35 Motor thermal protection
selection of temperature measurement sources.
Temperature adaptation of motor model disabled.
Estimated temperature
used for adaptation of motor model.
Measured temperature 1
used for adaptation of motor model.
Measured temperature 2
used for adaptation of motor model.
Activates hexagonal motor flux pattern in the field weakening
area, ie. above the limit defined by parameter
Hexagonal field weakening
Note: This parameter is only effective in scalar motor control
mode.
See also section Hexagonal motor flux pattern
The rotating flux vector follows a circular pattern.
The flux vector follows a circular pattern below, and a
hexagonal pattern above, the hexagonal field weakening
point (97.19).
Relative output voltage. No
IR compensation.
(35.01 Motor estimated
(35.02 Measured temperature
(35.03 Measured temperature
97.19
point.
(page 102).
Def/FbEq16
0.00%
f (Hz)
on
1 = 1%
Disabled
for
0
temperature) 1
1) 2
2) 3
Off
0
1