Rockwell Automation 8520-ARM2 9/Series CNC AMP Reference Manual Documentation Set User Manual

Tuning a Digital or Tachless Analog System

Appendix A

A-13

Smaller lighter systems may become very unstable. Chatter can

occur instead of the smooth overshoot curve shown in Figure A.1

which is typical of larger systems. With no integral gain, it is

doubtful you will see a stable curve on any type of system.

4.

Lower the velocity proportional gain to the highest value possible at

which only a slight velocity overshoot (or chatter) occurs. This is

your maximum velocity proportional gain value.

Tuning for Optimal Acceleration

Now that you know the maximum value for velocity proportional gain, you

can begin fine tuning the drive for optimal performance as follows:

5.

Up to this point the velocity integral gain has been at its minimum

value. Raise the velocity integral gain (see page 40-13).

6.

Lower the velocity proportional gain until the sharp overshoot occurs

again.

Continue raising the velocity integral gain by small increments.

Each time you raise the integral gain you should create a velocity

overshoot that can be detected on your strip chart recorder. Remove

the created velocity overshoot by lowering the velocity proportional

gain (strip chart recording performance as described previously while

running your tuning part program). Typical final velocity integral

values are between 5 and 10 times smaller than the velocity

proportional gain value.