Integrator Time - Allen-Bradley Ultra1500 2092-DA1 User Manual

Figure 5.12
Velocity Regulator Step Response with Varying P Gain.
450
P Gain = 500
400
350
300
250
200
150
100
50
0
0 5

Integrator Time

The Integrator Time parameter sets the integral response of the velocity
regulator. It can be in the range 0–60,000. This parameter setting has an
inverse relationship to amount of Integral Gain in the regulator. Smaller values
result in more Integral Gain and less stability. Larger values result in less
Integral Gain and more stability. However, a value of zero results in zero
Integral Gain, effectively disabling the velocity loop integrator.
Integration in the regulator forces the feedback velocity to track the command
velocity when the velocity command is constant (so called "steady state" or
"zero frequency"), and the load in not changing. Excessive regulator
integration can result in oscillatory responses and system instability.
Figure 5.13 shows the effect of varying the Integrator Time parameter to the
velocity step response with the P Gain set to 30 and the D Gain set to zero.
The response becomes more oscillatory as the Integral Time is decreased, (and
the Integral Gain is effectively increased).
Ultra1500 Application Examples
P Gain = 20
10 15
Time (msec)
Publication 2092-UM001D-EN-P — July 2005
Velocity
Command
P = 20
P = 40
P = 200
P = 500
20 25
5-31