Motor Data - ABB ACQ580 Firmware Manual
Pump control program
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Also See for ACQ580:
- Quick start up manual (92 pages) ,
- Manual (5 pages) ,
- Electrical planning instructions (36 pages)
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292 Parameters
No.
Name/Value
98.08
PM flux user
0.00000... 2.00000
p.u
98.09
Rs user SI
0.00000...100.0000
0 ohm
98.10
Rr user SI
0.00000...100.0000
0 ohm
98.11
Lm user SI
0.00...100000.00
mH
98.12
SigmaL user SI
0.00...100000.00
mH
98.13
Ld user SI
0.00...100000.00
mH
98.14
Lq user SI
0.00...100000.00
mH
99
99 Motor data
99.03
Motor type
Asynchronous
motor
Permanent magnet
motor
SynRM
Description
Defines the permanent magnet flux.
Note: This parameter is valid only for permanent magnet
motors.
Permanent magnet flux in per unit.
Defines the stator resistance R
Stator resistance.
Defines the rotor resistance R
Note: This parameter is valid only for asynchronous motors.
Rotor resistance.
Defines the main inductance L
Note: This parameter is valid only for asynchronous motors.
Main inductance.
Defines the leakage inductance
Note: This parameter is valid only for asynchronous motors.
Leakage inductance.
Defines the direct axis (synchronous) inductance.
Note: This parameter is valid only for permanent magnet
motors.
Direct axis inductance.
Defines the quadrature axis (synchronous) inductance.
Note: This parameter is valid only for permanent magnet
motors.
Quadrature axis inductance.
Motor configuration settings.
Selects the motor type.
Note: This parameter cannot be changed while the drive is
running.
Standard squirrel cage AC induction motor (asynchronous
induction motor).
Permanent magnet motor. Three-phase AC synchronous
motor with permanent magnet rotor and sinusoidal BackEMF
voltage.
Note: With permanent magnet motors special attention must
be paid on setting the motor nominal values correctly in
parameter group
99 Motor
If the nominal BackEMF voltage of the motor is not available,
a full ID run should be performed for improving performance.
Synchronous reluctance motor. Three-phase AC
synchronous motor with salient pole rotor without permanent
magnets. You must use vector control.
of the motor model.
S
of the motor model.
R
of the motor model.
M
σ
L
.
S
data. You must use vector control.
Def/FbEq16
0.00000 p.u.
-
0.00000 ohm
-
0.00000 ohm
-
0.00 mH
1 = 10000
mH
0.00 mH
1 = 10000
mH
0.00 mH
1 = 10000
mH
0.00 mH
1 = 10000
mH
Asynchro-
nous motor
0
1
2
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