NORD Drivesystems BU0200 User Manual
Page 228
6 Parameterisation
BU 0200 GB-4411
Subject to technical alterations
227
Parameter
{Factory setting}
Setting value / Description / Note
Device
Supervisor
Parameter
set
P557
Brake resistor type
(Brake resistor power)
S
0.00 ... 20.00 kW
{ 0.00 }
Continuous power (nominal power) of the resistor, to display the actual utilisation in P737. For
a correctly calculated value, the correct value must be entered into P556 and P557.
The settings of this parameter have no effect if an internal brake resistor is used and DIP
switch number 8 from block S1 is actuated.
0.00 = Off, monitoring disabled
P558
Flux delay
(Magnetizing time)
S
P
0 / 1 / 2 ... 500 ms
{ 1 }
The ISD control can only function correctly if there is a magnetic field in the motor. For this
reason, a DC current is applied before starting the motor. The duration depends on the size of
the motor and is automatically set in the factory setting of the FI.
For time critical applications, the excitation time can be set or deactivated.
0 =
switched off
1 =
automatic calculation
2 ... 500 = according to set time in [ms]
NOTE: Setting values that are too low can reduce the dynamics and starting torque.
P559
DC Run-on time
(DC run-on time)
S
P
0.00 ... 30.00 s
{ 0.50 }
Following a stop signal and the braking ramp, a direct current is briefly applied to the motor to
fully bring the drive to a stop. Depending on the inertia, the time for which the current is applied
can be set in this parameter.
The current level depends on the previous braking procedure (current vector control) or the
static boost (linear characteristic).
P560
Mode of param. save
(Saving mode parameters)
S
0 ... 2
{ 1 }
0 = Only in RAM, changes to the parameter settings are no longer saved on the EEPROM.
All previously saved settings are retained, even if the FI is disconnected from the
mains.
1 = RAM and EEPROM, all parameter changes are automatically written to the EEPROM
and remain stored there even if the FI is disconnected from the mains supply.
2 = Off, no storage in the RAM and EEPROM possible ( No parameter changes are
accepted)
NOTE:
If BUS communication is used to implement parameter changes, it must be
ensured that the maximum number of write cycles (100,000 x) in the EEPROM is
not exceeded.