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Baumer
FZAM 18N6460/S14
Fiber Optic Sensor, 150 mm, 800 mm, Pulsed Infrared Diode, NPN, Teach-in Adjustment, M12 Connector (4 Pin), IP 67
$330.09$330.09 -
Baumer
FZAM 18P1150
Fiber Optic Sensor, 150 mm, 800 mm, Pulsed Infrared Diode, PNP, 270° Potentiometer, 2 Meter Cable (3 Pin), IP 67
$228.80$228.80 -
Baumer
FZAM 18P1150/S14
Fiber Optic Sensor, 150 mm, 800 mm, Pulsed Infrared Diode, PNP, 270° Potentiometer, M12 Connector (4 Pin), IP 67
$213.80$213.80 -
Baumer
FZAM 18P1155
Fiber Optic Sensor, 60 mm, 310 mm, Pulsed Infrared Diode, PNP, 15 Turn Potentiometer, 2 Meter Cable (3 Pin), IP 65
$234.49$234.49 -
Baumer
FZAM 18P6460
Fiber Optic Sensor, 18 mm Diameter, 150 mm, 800 mm, Pulsed Infrared Diode, PNP, Teach-in, 2 Meter Cable Length (4 Pin), IP67
$347.00$347.00 -
Baumer
FZAM 30N5002
Diffuse Sensor with Intensity Difference- Standard, 30 mm Diameter, 300...1500 mm Range, Pulsed Infrared Diode, NPN, 15 Turn Potentiometer, 2 Meter Cable (4 Pin), IP65
$602.89$602.89 -
Baumer
FZAM 30N5004
Fiber Optic Sensor, 230 mm, 1400 mm, Pulsed Infrared Diode, NPN, 20 Turn Potentiometer, 2 Meter Cable (4 Pin), IP 65
$546.60$546.60 -
Baumer
FZAM 30P5001
Fiber Optic Sensor, 110 mm, 600 mm, Pulsed Infrared Diode, PNP, 20 Turn Potentiometer, 2 Meter Cable (4 Pin), IP 65
$546.60$546.60 -
$602.89$602.89 -
Baumer
FZAM 30P5004
Fiber Optic Sensor, 30 mm Diameter, 230 mm, 1400 mm, Pulsed Infrared Diode, PNP, 20 Turn Potentiometer, 2 Meter Cable Length (4 Pin), IP 65
$546.60$546.60 -
Baumer
FZCK 07N6901
Diffuse Sensor With Intensity Difference-Subminiature, 20...150 mm Sensing Distance, Pulsed Red LED, NPN, Teach-in Adjustment, 2 Meter Long Rear Side Cable, IP 65
$354.49$354.49 -
Baumer
FZCK 07N6901/KS35A
Diffuse Sensor With Intensity Difference-Subminiature, 20...150 mm Sensing Distance, Pulsed Red LED, NPN, M8 Flylead Connector (4 Pin) 200 mm Long, IP 65
$373.29$373.29
Photoelectric sensors detect the distance, absence or presence of an object. These sensors are great for sensing long distances and detecting most materials.
How Does a Photoelectric Sensor Work?
Generally a photoelectric sensor consists of the following:
- Transmitter - emits the light beam
- Receiver - detects the light beam and converts it to an electrical signal
Photoelectric sensors detect changes in the light beam caused by the presence/absence, movement or properties of an object.
Types of Photoelectric Sensors:
- Through-Beam (Thru-Beam)
- Transmitter and receiver are two separate units that are directly opposite of each other. The sensor detects when an objects breaks the light beam
- Great for long distance detection
- Ideal for conveyors, counting or monitoring door openings
- Retroreflective (Reflective Mode)
- Transmitter and receiver are in one housing; light beam is reflected back by a reflector. Detection is triggered when an object breaks the beam.
- Medium range detection and easier to install than a through beam
- Ideal for package detection and pallet positioning
- Diffuse (Proximity Mode)
- The transmitter and receiver in one housing; the sensor detects light reflected directly off the target object (no reflector needed)
- Best for short range applications
- Ideal for detecting objects on assembly lines, verifying presence or checking fill level
- Specialized Types:
- Background Suppression: Can ignore objects beyond a set distance, focuses close range
- Color or Contrast Sensors: Detects specific colors or contrast differences
- Distance Measuring Sensors: Mesaure the distance to an object
Categories Related to Photoelectric Sensors:
- Stack lights - signal towers visually communicate the data or alerts that the photoelectric sensors are generating
- Smart relays - photoelectric sensors provide input signals which can process the data and control outputs
- Pushbuttons and estops - if your sensor detects a fault, an operator can use a pushbutton to reset the system
- HMIs - HMIs can dispay the data from the photoelectric sensor which allows you to monitor processes