MTS Series 793 User Manual

MTS Series 793 Tuning and Calibration

About Tuning

Introduction

36

Ramp and tapered ramp

waveform

A ramp waveform (also called a triangle waveform) requires the actuator to move
at a constant rate. This requires the servovalve to move quickly between two
discrete openings. Cycling a ramp waveform produces a triangle waveform.

Tapered ramp waves taper from 0% to 100% amplitude at the beginning of
execution, and from 100% to 0% at the end of execution.

•

A ramp waveform is useful for all levels of tuning.

•

Use a ramp waveform if a square waveform creates excessive velocities or
acceleration for the type of specimen being tested.

•

Monitor the feedback or error signal to evaluate the system stability.

Sine and tapered sine

waveform

A sine waveform (also called sinusoidal or haversine) requires the servovalve to
move at a variety of rates.

Tapered sine waves taper from 0% to 100% amplitude at the beginning of
execution, and from 100% to 0% at the end of execution.

Random function

generator

When tuning AIC compensator configurations, it is necessary to generate random
functions to properly simulate typical test conditions.

Random functions employ a pre-emphasis filter to make the convergence rate
constant over all frequencies. The random function options include:

•

Random - 1/F

2

•

Random - 1/F

•

Random - Flat (none)

•

Random - F

•

Random - F

2

Frequency

A low-frequency waveform is adequate for most testing. Tests at higher
frequencies cause a frequency shift that cannot be completely corrected with the
PIDF adjustments.

•

Do your initial tuning at a low frequency, and then fine tune at the highest
frequency in your test program. Common values are
1–2 Hz.

•

Servo adjustments that do not improve performance at high frequencies
generally indicate that the servovalve is running at 100% capacity or the
HPU is running at 100% capacity.