YASKAWA
SIEPC71061737B GA800 Drive Technical Reference
721
If you increase the value of
C3-21 [Motor 2 Slip Compensation Gain]
and the motor speed is slow, use this parameter.
The drive uses this parameter when the slip is at the upper limit of slip compensation. Make sure that you measure the
motor speed when you increase this parameter value. Set this parameter to make the frequency reference and the slip
compensation limit less than the permitted range of the machine.
The slip compensation limit is constant in the constant torque range (frequency reference ≤
E3-06 [Motor 2 Base
Frequency]
). In the constant power range where the frequency reference >
E3-06
, the slip compensation limit
increases with the
C3-23
value and the output frequency as shown in
Figure 12.52 Motor 2 Slip Compensation Limit
■
C3-24: Motor 2 Slip Comp during Regen
No.
(Hex.)
Name
Description
Default
(Range)
C3-24
(0243)
Motor 2 Slip Comp during
Regen
Sets the slip compensation during regenerative operation function for motor 2.
0
(0 - 2)
If you enable the slip compensation function during regeneration, the quantity of regeneration can increase
immediately. In this condition, it is necessary to use a dynamic braking option (braking resistor or braking resistor
unit).
0 : Disabled
The drive will not do Slip compensation during regeneration.
The load and operation status (regenerative operation) can cause the motor speed to be higher or lower than the
frequency reference.
1 : Enabled Above 6Hz
The slip compensation function is enabled during regeneration. Slip compensation is disabled at output frequencies of
6 Hz or less.
2 : Enabled Above C3-15
The drive uses
E2-02 [Motor Rated Slip]
to automatically calculate the frequency range where it will disable slip
compensation function during regeneration.
Slip compensation is enabled at frequencies as low as 2 Hz.
■
C3-28: Adaptive Slip Control Mode
No.
(Hex.)
Name
Description
Default
(Range)
C3-28
(1B5B)
Expert
Adaptive Slip Control Mode
Sets the slip compensation function mode.
0
(0, 1)
0 : Normal
1 : Advanced
Note:
Set
C3-28 = 0
for better torque precision. If the torque precision does is not better, set
C3-28 = 1
and increase the value of
n4-65 [Flux
Estimate Response@High Freq]
or
n4-66 [Flux Estimate Response @Low Freq]
in 0.1-unit increments. Then, you must do Rotational Auto-
Tuning.
V/f
CL-V/f
OLV
CLV
AOLV
OLV/PM
OLV/PM AOLV/PM CLV/PM
EZOLV
V/f
CL-V/f
OLV
CLV
AOLV
OLV/PM
OLV/PM AOLV/PM CLV/PM
EZOLV
Содержание GA800 Series
Страница 2: ...This Page Intentionally Blank 2 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 20: ...i 3 Warranty Information 20 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 30: ...1 3 Features and Advantages of Control Methods 30 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 58: ...2 9 Installation Methods 58 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 144: ...4 4 Start up Procedures 144 YASKAWA SIEPC71061737B GA800 Drive Technical Reference Figure 4 8 Basic Steps before Startup...
Страница 268: ...5 6 Safe Disable Input 268 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 306: ...6 3 MEMOBUS Modbus Communications 306 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 370: ...7 10 Troubleshooting Without Fault Display 370 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...
Страница 426: ...8 7 Storage Guidelines 426 YASKAWA SIEPC71061737B GA800 Drive Technical Reference...