Sensor calibration, Sensor calibration 45 – MTS Series 793 User Manual

About Calibration

MTS Series 793 Tuning and Calibration

Introduction

45

Sensor Calibration

Sensors convert a measured mechanical value (such as force, displacement, or
pressure) into a corresponding electrical signal. Each sensor requires
conditioning (such as AC or DC excitation) in order to output a feedback signal
that can be used by your servo controller.

Sensor/Conditioner Signal Diagram

Sensor output

Each sensor/conditioner pair must be calibrated to output a voltage that is
proportional to the measured output (which may be displacement, force, or some
other dimension).

For example, a 10-cm LVDT/AC conditioner pair (connected to a 10-cm
actuator) is typically calibrated to output:

•

0 volts at the piston midstroke position (0 cm)

•

+10 volts at maximum piston retraction (–5 cm)

•

–10 volts at maximum piston extension (+5 cm)

Sensor calibration

data base

The calibration procedure creates a calibration data base for each range of a
sensor. The data base that is created includes:

•

Calibration data points

•

Sensor information (model, type, serial number, calibration date)

•

Equipment information (identifies the equipment used in the calibration)

•

Conditioner information (serial number, model number, excitation voltage,
circuit parameters)

Force Sensor

Calibration

Calibrating a force sensor requires a load standard. A load standard can be a
special calibrated force sensor with its own electronics or a set of calibrated dead
weights.

Sensor

Conditioner

Module

Excitation

Signal

Sensor

Signal

Feedback

Signal