Accessory apertures – Banner WORLD-BEAM QS30 Water Sensor User Manual
Page 9
Accessory Apertures
Opposed-mode QS30 sensors may be fitted with apertures to narrow or shape the sensor’s effective beam to more closely match the
size or profile of the containers being sensed. A common example is the use of slot type apertures to detect edges of liquid levels.
NOTE: The use of apertures will reduce the excess gain (see attentuation table below).
Model
Description
APQS30-040
Circular hole
1 mm (0.04") diameter – 6 each
APQS30-100
2.5 mm (0.10") diameter – 6 each
APQS30-200
5 mm (0.20") diameter – 6 each
APQS30-040H
Horizontal slot
1 x 12 mm (0.04" x 0.47") – 6 each
APQS30-100H
2.5 x 12 mm (0.10" x 0.47") – 6 each
APQS30-200H
5 x 12 mm (0.20" x 0.47") – 6 each
APQS30-040V
Vertical slot
1 x 17 mm (0.04" x 0.67") – 6 each
APQS30-100V
2.5 x 17 mm (0.10" x 0.67") – 6 each
APQS30-200V
5 x 17 mm (0.20" x 0.67") – 6 each
APQS30-DVHX2
Kit containing two of each aperture above – 18 total
APQS30-DVH
Kit (included with each emitter/receiver) containing one each of
aperture models: APQS30-040, APQS30-040H, APQS30-040V
Model
Attenuation Factor
Aperture on Both Emitter and Receiver
Aperture on Receiver Only
APQS30-040
5,000
90
APQS30-100
300
20
APQS30-200
20
5
APQS30-040H
60
10
APQS30-100H
13
4
APQS30-200H
4
2
APQS30-040V
60
10
APQS30-100V
13
4
APQS30-200V
4
2
Examples for Apertures and Water Thickness vs. Excess Gain
The QS30EXH2O / QS30RXH2O sensor pair is used with a horizontal aperture model APQS30-040H on the receiver at 1 meter sensing
distance. The excess gain is reduced to approximately 200; 50 mm of water will completely block the signal.
When the same aperture is used on both the emitter and receiver at 1 meter, the excess gain is approximately 40; 35 mm of water
will block the signal.
NOTE: This example does not include the attenuation from the container holding the water.
WORLD-BEAM QS30H2O Series
P/N 136166 rev. C
www.bannerengineering.com - tel: 763-544-3164
9