Analog signals – MTS SWIFT 40 Sensor User Manual

SWIFT 40 Sensors

32

Transducer Interface

Hardware Overview

The TI transforms eight inputs (amplified bridge signals) into three forces and
three moments by the following process:

•

Applying a zero offset and scaling the signals

•

Using a geometric matrix to transform the signals into three forces and three
moments in the transducer reference frame

•

Using a cross-coupling matrix calculation to scale and sum the individual
signals into each output

•

In spinning applications, using a rotational transformation to put the forces
and moments into a stationary reference frame

The TI conditions the transducer signals, producing seven analog output signals
proportional to the following values:

•

Longitudinal force (Fx)

•

Lateral force (Fy)

•

Vertical force (Fz)

•

Overturning moment (Mx)

•

Driving/Braking moment (My)

•

Steering moment (Mz)

•

Angle output (

θ)

Analog signals

The force and moment signals are output from the TI in the form of ±10 V

1

full

scale analog signals. These signals can be used by any data acquisition system.

The angle output is an analog voltage that is proportional to angular position. At
0° the output is 0 V. At 360°, the output is 5 V.

Fx1

Fx2

Fy1

Fy2

Fy3
Fy4
Fz1

Fz2

Fx

Fy

Fz

Mx

My
Mz

Geometric

Matrix

Zero and

Scaling

q

Cross

Coupling

Matrix

Rotational

Transformation

q

Inputs

Outputs

Transducer Interface Functions

S20-09

1. Standard from MTS. Other full-scale output voltages can be evaluated and

may be provided at special request.