Derivative (d) gain, Derivative (d) gain 26, Integrator limit – MTS Series 793 User Manual

MTS Series 793 Tuning and Calibration

About Tuning

Introduction

26

Integral gain increases system response during static or low-frequency operation
and maintains the mean level at high-frequency operation. It can offset a DC or
steady-state error, such as that caused by valve imbalance.

A ramp and hold waveform illustrate different levels of reset. The
I Gain adjustment determines how much time it takes to improve the mean level
accuracy.

Integral gain:

•

Improves mean level response during dynamic operation

•

Corrects feedback droop caused by the spring characteristic of the
servovalve in static and very low-frequency test programs

•

Minimizes the amount of time the system needs to recover from transitions
or transients

Keep in mind:

•

Higher integral gain settings increase system response.

•

Too much integral gain can cause a slow oscillation (hunting).

•

You may want to use the max/min display to monitor the mean level, reset
the display, and check it again.

Integrator limit

The Integrator Limit control allows you to set the maximum integrator value as a
percentage of full-scale output.

Derivative (D) Gain

Derivative gain is an adjustment you may or may not need. Another name for
derivative gain is Rate gain.

Get back into the car and back on the race track. Only now you are going really
fast and the curves are electrifying. But it is a race, so you are actually
accelerating while in the short straightaways.

Overshoot

Hunting

Droop

Excessive Reset

Reset Too High

Mean Level Stability

Reset Too Low