Preparing for start up (vector), 1 preparing for start up (vector) – Rockwell Automation GV3000/SE AC Gen. Purpose and Vector Drive Software Start-Up and Ref. Manual User Manual
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GV3000/SE AC Drive Software Reference, Version 6.06
2.1 Preparing for Start Up (Vector)
Read through the following sections to prepare for the start-up procedure.
What You Need to Know:
•
You must be qualified to perform the procedure and be familiar with vector
regulation.
•
You should be familiar with the keypad/display. If you are not familiar with the
keypad/display, refer to chapter 3, which describes it.
What You Need to Do:
•
Complete all hardware installation as described in the hardware reference manual.
This includes connecting input power, input transformers (if required), disconnects,
fuses, the encoder (if used), and the terminal strip on the drive.
•
Record the following motor data from the motor nameplate for use during the
procedure:
•
If an encoder is used, record the following encoder data. Make sure the encoder is
mounted to the motor and connected to the drive.
•
Connect the drive to the motor and disconnect the motor from the load.
•
Check that you have not been prevented from programming the drive. If the
PASSWORD LED on the keypad is on, programming has been prevented in
parameter P.051, Programming Disable. Refer to section 4.4 in this manual for the
procedure to enable programming.
If You Have a Problem:
To Exit:
During most of the start-up procedure, you will be in program mode, which is used to
program parameters. If you want to stop programming parameters, you can exit
program mode. You can do this by pressing the PROGRAM key until the PROGRAM
LED has turned off. This will place the keypad/display in monitor mode, the default.
You can read more about these modes in chapter 3.
Motor rated horsepower:
Motor rated amps:
Motor rated volts:
Motor base frequency:
Motor rated RPM:
Number of motor poles
1
:
1
Reliance RPM
AC motors are 4-pole regardless of base RPM. Standard NEMA
motors are as follows:
3600 RPM = 2 poles
1800 RPM = 4 poles
1200 RPM = 6 poles
900 RPM = 8 poles
Consult your motor supplier if you are unsure of the motor design you are using.
Encoder PPR: