SICK sensor one of the world’s leading producers of sensors and sensor solutions for industrial applications. SICK is a technology and market leader in Factory and Logistics Automation as well as Process Automation. The sensor range are: Laser Sensors, Cylinder Sensors, Photoelectric Sensors, Fork Sensors, Encoders, Color Sensors, Distance Sensor, Contrast Sensor, Color Sensor, Inductive Proximity Sensors, Fiber Optic Sensor with our signature range sick sensor intelligence.

Part Number: 1218200
Contrast Sensor Model: KTS-WB41141142ZZZZ
OEM Spec Ref 

Features

Special applications Standard
Device type Easy Teach
Dimensions (W x H x D) 26 mm x 62 mm x 47.5 mm
Sensing distance 13 mm
Sensing distance tolerance ± 3 mm
Housing design (light emission) Middle
Light source LED, RGB 1)
Wave length 470 nm, 525 nm, 625 nm
Light emission Long side of housing
Light spot size 1.2 mm x 3.9 mm
Light spot direction Vertical 2)
Receiving filters None
Teach-in mode 2-point teach-in
Output function Light/dark switching
Delay time
Special features
Delivery status 2-point teach-in
Parameter presettings None
  • 1) Average service life: 100,000 h at TU = +25 °C.
  • 2) In relation to long side of housing.

 

Mechanics/electronics

Supply voltage 10.8 V DC … 28.8 V DC 1)
Ripple ≤ 5 Vpp 2)
Current consumption < 100 mA 3)
Switching frequency 25 kHz 4)
Response time 20 µs 5)
Jitter 10 µs
Switching output Push-pull: PNP/NPN
Switching output (voltage) Push-pull: PNP/NPN HIGH = VS – 3 V / LOW ≤ 3 V
Output current Imax. 100 mA 6)
Input, teach-in (ET) Teach: U = 10 V … < VS
Retention time (ET) 35 ms, non-volatile memory
Connection type Male connector M12, 4-pin
Protection class III
Circuit protection UV connections, reverse polarity protected

Output Q short-circuit protected

Interference pulse suppression

Enclosure rating IP67
Weight 68 g
Housing material Plastic, VISTAL®
Optics material Plastic, COP
  • 1) Limit values: DC 12 V (–10 %) … DC 24 V (+20 %). Operation in short-circuit protected network max. 8 A.
  • 2) May not exceed or fall below Uv tolerances.
  • 3) Without load.
  • 4) With light/dark ratio 1:1.
  • 5) Signal transit time with resistive load.
  • 6) Total current of all Outputs.