Figure 5, Figure 6, Figure 3 – Banner S18 Series User Manual

reflective (matte) background, or angle either the sensor or the background (in any plane) so the background does not

reflect light back to the sensor (see

Figure 4

on page 3). Position the background as far beyond the cutoff distance as

possible.

An object beyond the cutoff distance, either stationary (and when positioned as shown in

Figure 5

on page 3), or

moving past the face of the sensor in a direction perpendicular to the sensing axis, can cause unwanted triggering of the

sensor if more light is reflected to the near detector than to the far detector. The problem is easily remedied by rotating

the sensor 90° (

Figure 6

on page 3). The object then reflects the R1 and R2 fields equally, resulting in no false

triggering. A better solution, if possible, may be to reposition the object or the sensor.

Color Sensitivity

The effects of object reflectivity on cutoff distance, though small, may be important for some applications. It is expected

that at any given cutoff setting, the actual cutoff distance for lower reflectance targets will be slightly shorter than for

higher reflectance targets (see

Performance Curves

on page 4). This behavior is known as color sensitivity.

For example, an excess gain of 1 for an object that reflects 1/10 as much light as the 90% white card is represented by

the horizontal graph line at excess gain = 10. An object of this reflectivity results in a far limit cutoff of approximately 20

mm (0.8 inches), for the 25 mm (1 inch) cutoff model for example; thus 20 mm represents the cutoff for this sensor and

target.

These excess gain curves were generated using a white test card of 90% reflectance. Objects with reflectivity of less than

90% reflect less light back to the sensor, and thus require proportionately more excess gain in order to be sensed with the

same reliability as more reflective objects. When sensing an object of very low reflectivity, it may be especially important

to sense it at or near the distance of maximum excess gain.

R1 = Near Detector
R2 = Far Detector
E = Emitter

S18FF

Cutoff

Distance

Reflective

Background

Fixed

Sensing

Field

E

R2

R1

Strong
direct
reflection
to R1

Core of
emitted
beam

Figure 3. Reflective Background - Problem

R1

R2

E

R1 = Near Detector
R2 = Far Detector
E = Emitter

S18FF

Core of

Emitted

Beam

Cutoff

Distance

Reflective

Background

Fixed Sensing

Field

Strong

Direct

Reflection

Away From

Sensor

Figure 4. Reflective Background - Solution

Cutoff

Distance

R1 = Near Detector
R2 = Far Detector
E = Emitter

S18FF

E

R2

R1

Fixed

Sensing

Field

Reflective

Background

or Moving Object

Figure 5. Object Beyond Cutoff - Problem

E = Emitter
R1 = Near Detector
R2 = Far Detector

S18FF

E, R1, R2

Fixed

Sensing

Field

Cutoff
Distance

Reflective

Background

or Moving Object

Figure 6. Object Beyond Cutoff - Solution

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.

S18 Sensors (DC-Voltage Series)

P/N 121522 Rev. B

www.bannerengineering.com - tel: 763-544-3164

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