Documente tehnice
Specificatii
Marca
OptekPeak Sensor Distance
6.35mm
Output Device
Phototransistor
Number of Channels
1
Number of Pins
4
Timp montare
Screw Mount
Dimensiuni
29.59 x 7.62 x 13.34mm
Inaltime
13.34mm
Lungime
29.59mm
Temperatura maxima de lucru
+85°C
Frecventa minima de auto-rezonanta
-40°C
Latime
7.62mm
Temperatura de lucru
-40 → +85°C
Tara de origine
Mexico
Detalii produs
Tube Liquid Sensor
The OPB350 series liquid sensor is designed to work with 3.2mm (1/8 inch) and 6.3mm (1/4 inch) outside diameter clear tubes. Used in conjunction with suitably designed output reference circuitry, output states such as "fluid present", "no fluid present" and "no tube present" can be recognised. Clear liquid present causes the phototransistor to sink the maximum current, while dark liquid present causes it to sink the minimum current. As bubbles pass through the tube, the signal will vary between the liquid present and no liquid states. If no liquid is present, the phototransistor sinks only a small amount of current. If no tube is present, the phototransistor sinks a larger current than in the no liquid state.
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€ 8,61
Buc. (Intr-o punga de 25) (fara TVA)
€ 10,246
Buc. (Intr-o punga de 25) (cu TVA)
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€ 8,61
Buc. (Intr-o punga de 25) (fara TVA)
€ 10,246
Buc. (Intr-o punga de 25) (cu TVA)
25
Documente tehnice
Specificatii
Marca
OptekPeak Sensor Distance
6.35mm
Output Device
Phototransistor
Number of Channels
1
Number of Pins
4
Timp montare
Screw Mount
Dimensiuni
29.59 x 7.62 x 13.34mm
Inaltime
13.34mm
Lungime
29.59mm
Temperatura maxima de lucru
+85°C
Frecventa minima de auto-rezonanta
-40°C
Latime
7.62mm
Temperatura de lucru
-40 → +85°C
Tara de origine
Mexico
Detalii produs
Tube Liquid Sensor
The OPB350 series liquid sensor is designed to work with 3.2mm (1/8 inch) and 6.3mm (1/4 inch) outside diameter clear tubes. Used in conjunction with suitably designed output reference circuitry, output states such as "fluid present", "no fluid present" and "no tube present" can be recognised. Clear liquid present causes the phototransistor to sink the maximum current, while dark liquid present causes it to sink the minimum current. As bubbles pass through the tube, the signal will vary between the liquid present and no liquid states. If no liquid is present, the phototransistor sinks only a small amount of current. If no tube is present, the phototransistor sinks a larger current than in the no liquid state.