Banner QMT42 Series 400 mm Adjustable Field Sensors User Manual

QMT42 Series 400 mm Adjustable Field Sensors

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Banner Engineering Corporation

Adjustable Field Sensing - Theory of Operation

The receiver element of an adjustable field sensor produces two
currents: I1 and I2. The

ratio of these two currents changes as the

received light signal moves along the length of the receiver element
(see Figure 1). The sensing cutoff distance relates directly to this
ratio, which can be adjusted using the sensor’s multi-turn
potentiometer.

The cutoff distance for model QMT42...AFV400 sensors is
adjustable from 125 to 400 millimeters (5 to 16 inches). Objects
lying beyond the cutoff distance are ignored, even if they are highly-
reflective.

However, it is possible to falsely detect a background object, if it is
positioned as shown in Figure 3, or if it moves past the face of the
sensor in a direction which is perpendicular to the sensing axis
(Figures 2 and 3). To solve this problem, rotate the sensor 90
degrees, as shown in Figure 4.

R

Lenses

Object

A

Object

B

Background

Adjustable
Sensing Field

Cutoff

Distance

E

Receiver

Element

Minimum

Sensing

Distance

I

1

I

2

Receiver
Element

Emitter

Sensing Axis

Figure 1: Adjustable Field Sensing Concept

Figure 2: Sensing Axis

Figure 3: Object Beyond Cutoff Distance - Problem

Figure 4: Object Beyond Cutoff Distance - Solution

Cutoff Distance

Sensing Field

Sensor

(side view)

Cutoff Distance

Sensing Field

Sensor (top view)

As a general rule, the most
reliable sensing of an object
which approaches from the
side occurs when the line of
approach is parallel to the
sensing axis.

A reflective background
object in this position
or moving across the
sensor face in this axis
and direction may
cause false sensor
response.

A reflective background
object in this position or
moving across the
sensor face in this axis
will be ignored.