ABB ACS880 Firmware Manual page 600
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- Firmware manual (742 pages) ,
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600 Parameters
No.
Name / Range /
Selection
95.30
Parallel type list
filter
No filter
400 V
500 V
690 V
-7 LC (525-690V)
95.31
Parallel type
configuration
Not selected
-
95.40
Transformation
ratio
0.000 ... 100.000
95.200
Transformation
voltage drop
0.00 ... 100.00
95.201
Length of the cable
1.00 ... 32000.00
95.202
Diameter of the
cable
0.000 ... 32000.000
mm
95.203
Resistance of the
cable
0.000 ... 64000.000
Ohm/km
95.204
Inductance of the
cable
Description
(Only visible with a BCU control unit)
Filters the list of drive/inverter types listed by
parameter
95.31 Parallel type
Note: This parameter cannot be changed while the
drive is running.
All types listed.
-3 (380...415 V) types listed.
-5 (380...500 V) types listed.
-7 (525...690 V) types listed.
Liquid-cooled -7 (525...690 V) types listed.
(Visible when
95.30 Parallel type list filter
(Only visible with a BCU control unit)
Defines the drive/inverter type if it consists of
parallel-connected modules.
If the drive/inverter consists of a single module, leave
the value at
Not
selected.
Note: This parameter cannot be changed while the
drive is running.
The drive/inverter does not consist of
parallel-connected modules, or type not selected.
Drive/inverter type consisting of parallel-connected
modules.
Defines the ratio of the step-up transformer.
Step-up transformer ratio.
Defines the voltage drop in step-up transformer.
Voltage drop in step-up transformer.
Defines the medium voltage cable length between the
step-up transformer and the motor.
Medium voltage cable length.
Defines the diameter of the medium voltage side cable.
If this value is not available then a ideal value can be
used.
Diameter of the medium voltage side cable.
Defines the resistance of the medium voltage side
cable. If this value is not available then a copper resistor
value can be used.
Resistance of the medium voltage side cable.
Defines the inductance of the medium voltage side
cable. If this value is not available then a single-wire
self inductance model can be used.
configuration.
=
No
filter)
Def / Type
FbEq 16b / 32b
No filter / uint16
1
2
3
4
5
Not selected / uint16
0
-
0.000 / real32
1000 = 1 / 1000 = 1
0.00 / real32
100 = 1 / 1 = 1
1 / real32
1 = 1 / 1 = 1
0.000 mm / real32
1000 = 1 mm / 1 = 1
mm
0.000 Ohm/km /
real32
1000 = 1 Ohm/km / 2
= 1 Ohm/km
0.000 nH/km / real32
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