Parker 650G Product Manual page 69

MMI Parameters Table
Display Parameter
MOTOR POLES
M SV
MOTOR
VOLTAGE
M
MAG CURRENT
M
POWER
M SV
MOTOR
CONNECTION
M SV
STATOR RES
F M SV
LEAKAGE INDUC
F M SV
MUTUAL INDUC
F M SV
ROTOR TIME
CONST
F M SV
AUTOTUNE
MODE
SV
AUTOTUNE
ENABLE
SV
CURRENT LIMIT
F
POS TORQUE
LIMIT
F
NEG TORQUE
LIMIT
F
STALL TRIP TYPE
F
SPEED PROP
GAIN
F M SV
SPEED INT TIME
F M SV
SPEED POS LIMIT
F SV
SPEED NEG LIMIT
F SV
650G AC Drive
Programming Your Application
Description
This parameter contains the number of motor
poles, as supplied on the motor nameplate
This parameter contains the motor nameplate
voltage at base frequency
This parameter contains the motor model no-load
line current as determined by the Autotune, or
taken from the motor nameplate
This parameter contains the motor nameplate
power.
This parameter contains the motor nameplate
connection.
This parameter contains the motor model per-
phase stator resistance as determined by Autotune.
This parameter contains the motor model per-
phase leakage inductance as determined by
Autotune.
This parameter contains the motor model per-
phase mutual inductance as determined by
Autotune.
This parameter contains the motor model rotor
time constant as determined by Autotune.
Selects the Autotune operating mode.
Determines whether the Autotune sequence is
operational or not. The Autotune sequence is
operational when set to TRUE and the drive is run
This parameter sets the level of motor current, as a
S
% of MOTOR CURRENT ( CL10) at which the drive
begins to take current limit action.
This parameter sets the maximum allowed level of
positive motor torque.
This parameter sets the maximum allowed level of
negative motor torque.
This parameter determines whether the stall trip
operates on motor torque or motor current.
FALSE = TORQUE, TRUE = CURRENT
Sets the proportional gain of the loop.
Speed error (revolutions per second) x proportional
gain = torque percent.
This is the integral time constant of the speed loop.
A speed error which causes the proportional term
to produce a torque demand T, will cause the
integral term to also ramp up to a torque demand
T after a time equal to "speed int time".
This sets the upper limit of the speed demand.
This sets the lower limit of the speed demand.
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6-6
Range Default
2=2 pole 4
4=4 pole
6=6 pole
8=8 pole
10=10 pole
12=12 pole
0.0 to 575.0V product
code
dependent
0.01 to 999.99 A product
code
dependent
0.00 to 355.00kW product
code
dependent
0= DELTA 1
1= STAR
0.0000 to product
250.0000 code
dependent
0.00 to 300.00mH product
code
dependent
0.00 to 3000.00mH product
code
dependent
10.00 to 3000.00ms product
code
dependent
0= STATIONARY 0
1= ROTATING
0=FALSE 0
1=TRUE
0.00 to 300.00% 300.00%
-500.0 to 500.0% 200.0%
-500.0 to 500.0% -200.0%
0= FALSE 1
1= TRUE
0.00 to 300.00 product
code
dependent
1 to 15000ms product
code
dependent
-110.00 to 110.00% 110.00%
-110.00 to 110.00% -110.00%