YASKAWA
SIEPC71061737B GA800 Drive Technical Reference
191
4.8
Auto-Tuning
Auto-Tuning uses motor characteristics to automatically set drive parameters for vector control. Think about the type
of motor, drive control method, and the motor installation environment and select the best Auto-Tuning method.
The keypad will show the messages with prompts to input the necessary parameter information. These prompts are
specified by the selected Auto-Tuning method and the control method setting in
A1-02
.
◆
Auto-Tuning for Induction Motors
This section gives information about Auto-Tuning for induction motors. Auto-Tuning sets these parameters:
•
Motor parameters
E1-xx, E2-xx
(
E3-xx, E4-xx
for motor 2)
•
Speed feedback detection-use
F1-xx
(only with CLV)
Note:
Do Stationary Auto-Tuning if you cannot do Rotational Auto-Tuning. There can be large differences between the measured results and the
motor characteristics when Auto-Tuning is complete. Examine the parameters for the measured motor characteristics after you do Stationary
Auto-Tuning.
Table 4.6 Types of Auto-Tuning for Induction Motors
Mode
Parameter Settings
Application Conditions and Benefits
Applicable Control Method
(A1-02 Setting)
V/f
(0)
CL-V/f
(1)
OLV
(2)
CLV
(3)
AOLV
(4)
Rotational Auto-Tuning
T1-01 = 0
•
When you can decouple the motor and load the motor
can rotate freely while Auto-Tuning.
•
When operating motors that have fixed output
characteristics.
•
When it is necessary to use motors that have high-
precision control.
•
When you cannot decouple the motor and load, but
the motor load is less than 30%.
x
x
x
x
x
Stationary Auto-Tuning 1
T1-01 = 1
•
When you cannot decouple the motor and load, but
the motor load is more than 30%.
•
When the information from the motor test report or
motor nameplate is not available.
With Stationary Auto-Tuning, the energized drive
stays stopped for approximately 1 minute. During this
time, the drive automatically measures the necessary
motor parameters.
•
When operating the motor with a light load after
Auto-Tuning.
The drive can automatically calculate the motor
parameter settings necessary for torque control. Set
T1-12 = 1 [Test Mode Selection = Yes]
to do a test
run after Auto-Tuning.
-
-
x
x
x
Line-to-Line Resistance
T1-01 = 2
•
After Auto-Tuning, the wiring distance between the
drive and motor changed by 50 m or more.
•
When the wiring distance is 50 m or more in the V/f
Control mode.
•
When the motor output and drive capacity are
different.
x
x
x
x
x
■
Input Data for Induction Motor Auto-Tuning
To do Auto-Tuning, input data for the items in
that have an "x". Before starting Auto-Tuning, prepare the
motor test report or record the information on the motor nameplate as a reference.
Table 4.7 Input Data for Induction Motor Auto-Tuning
Input Data
Parameter
Unit
Auto-Tuning Mode
(T1-01 Setting)
Rotational Auto-Tuning
(0)
Stationary Auto-Tuning
1
(1)
Line-to-Line Resistance
(2)
Motor Rated Power
T1-02
kW
x
x
x
Motor Rated Voltage
T1-03
V
x
x
-
Motor Rated Current
T1-04
A
x
x
x
Содержание GA800 Series
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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...