YASKAWA GA800 Technical Reference page 699

4 : Advanced Open Loop Vector
This is a control method for induction motors. Use this control method for applications in which high-precision speed
control is necessary.
This control method has high speed and torque response and high torque when operating at low speeds. The speed
control range is 1:200.
5 : PM Open Loop Vector
The drive controls an IPM motor or SPM motor in this control method. Use this control method for general variable-
speed control applications in which a high level of responsiveness or high-precision speed control are not necessary.
The speed control range is 1:20.
6 : PM Advanced Open Loop Vector
The drive can control an IPM motor in this control method. Use this control method for general variable-speed control
applications in which high-precision speed control and torque limit are necessary. The speed control range is 1:20.
The speed control range is 1:100 when n8-57 = 1 [HFI Overlap Selection = Enabled].
Note:
The speed control range 1:100 is the momentary operation area. Correctly select the drive and motor capacity for continuous operation.
7 : PM Closed Loop Vector
The drive controls a PM motor in this control method. Use this control method for constant torque applications in
which high-precision control with a PM motor is necessary. Also use this control method for general variable-speed
control applications in which high torque response and high-precision torque control are necessary. A speed feedback
signal from the motor is necessary for this control method. The speed control range is 1:1500.
8 : EZ Vector Control
The drive controls induction motors and PM motors in this control method. This control method uses an easier
procedure to operate motors with more efficiency. Use this control method for derating torque applications. For
example, fans and pumps.
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A1-03: Initialize Parameters
No.
Name
(Hex.)
A1-03 Initialize Parameters
(0103)
Note:
• After you initialize the drive, the drive automatically sets A1-03 = 0.
• User Parameters can save the parameter values for your application and use these values as default values for drive initialization.
• To use the 2 motor switchover function, first turn OFF the terminal to which H1-xx = 16 [MFDI Function Selection = Motor 2 Selection] is
set, then change the A1-03 setting. An incorrect procedure will trigger oPE08 [Parameter Selection Error].
0 : No Initialization
1110 : User Initialization
Sets parameters to the values set by the user as user settings. Set o2-03 = 1 [User Parameter Default Value = Set
defaults] to save the user settings.
You can save the parameter settings that were adjusted for the test run as user-set default values to the drive. Set A1-
03 = 1110 to reset to the saved parameter settings.
Follow this procedure to save User Parameter setting values, and to do a User Initialization.
1. Set parameters correctly for the application.
2. Set o2-03 = 1 [User Parameter Default Value = Set defaults].
This saves parameter settings for a User Initialization.
The drive will then automatically set o2-03 = 0.
3. Set A1-03 = 1110 to reset to the saved parameter settings.
When you initialize the drive, the drive sets the parameter values to the User Parameter setting values.
2220 : 2-Wire Initialization
Sets MFDI terminal S1 to Forward Run and terminal S2 to Reverse Run, and resets all parameters to default settings.
YASKAWA SIEPC71061737D GA800 Drive Technical Reference
V/f CL-V/f OLV CLV AOLV
Sets parameters to default values.
12.2 A: Initialization Parameters
Description
OLV/PM AOLV/PM CLV/PM EZOLV OLV/PM
Default
(Range)
0
(0 - 3330)
12
699