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Wenglor YP11MGV80 Laser Distance Sensor High Precision

Wenglor YP11MGV80 Laser Distance Sensor High Precision these sensors can measure distances and display analog output.

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Wenglor YP11MGV80 Laser Distance Sensor High Precision
Wenglor YP11MGV80 Laser Distance Sensor High Precision
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Description

Wenglor YP11MGV80 Laser Distance Sensor High Precision

Wenglor YP11MGV80 Laser Distance Sensor High Precision can measure distances and display analog output. Their high resolution and wide variety of measuring ranges allow them to be used in innumerable applications. The output signal is practically independent of the object‘s color.

Optical Data:

  • Working Range 50 … 100 mm
  • Measuring Distance 75 mm
  • Measuring Range 50 mm
  • Resolution 100 µm
  • Linearity 0.5 %
  • Linearity Deviation 250 µm
  • Light Source Laser (red)
  • Wavelength 655 nm
  • Service Life (T = +25 °C) 100,000 h
  • Laser Class (EN 60825-1) 2
  • Max. Ambient Light 10,000 Lux
  • Light Spot Diameter 1 mm

Electrical Data:

  • Supply Voltage 18 … 30 V DC
  • Current Consumption (Ub = 24 V) < 30 mA
  • Cut-Off Frequency 1 kHz
  • Response Time 500 µs
  • Temperature Drift (Tu < 10 °C, Tu > 40 °C) 20 µm/K
  • Temperature Drift (10 °C < Tu < 40 °C) 10 µm/K
  • Temperature Range -10 … 60 °C
  • Error Output Voltage Drop < 2.5 V
  • PNP Error Output/Switching Current 200 mA
  • Analog Output 0…10 V
  • Short Circuit Protection yes
  • Reverse Polarity Protection yes
  • Overload Protection yes
  • Protection Class III

Mechanical Data:

  • Housing Material Plastic
  • Full Encapsulation yes
  • Degree of Protection IP67
  • Connection M12 × 1; 8-pin

Output:

  • Error Output
  • Analog Output

Features

  • Cut-off frequency up to 1 kHz
  • Linearity: 0,5 %
  • Measuring range: 50 mm

Applications

Detection of Rubber Splices with High-Precision Laser Distance Sensors

The manufacture of car tires requires a large number of rubber layers, which must meet various requirements at different points in the tire. This involves overlapping individual strips, which is also called splicing. These overlapping layers must be detected by sensors during operation at speeds up to 0.5 m/sec. For this purpose, two high-precision laser distance sensors are installed above the conveyor belt, which reliably monitor the splicing using differential measurement. A switching frequency of 1 kHz is even possible on dark, light-absorbing surfaces.

High-Precision Laser Distance Sensors

High-precision laser distance sensors work according to the principle of angle measurement, whereby color, shape and object surface do not influence the measurement. Depending on the setting, they can be operated at very high speed or resolution. The measuring range can be selected individually within the sensor’s working range.

Specifications

Optical Data
Working Range 50 … 100 mm
Measuring Distance 75 mm
Measuring Range 50 mm
Resolution 100 µm
Linearity 0.5 %
Linearity Deviation 250 µm
Light Source Laser (red)
Wavelength 655 nm
Service Life (T = +25 °C) 100,000 h
Laser Class (EN 60825-1) 2
Max. Ambient Light 10,000 Lux
Light Spot Diameter 1 mm

Electrical Data
Supply Voltage 18 … 30 V DC
Current Consumption (Ub = 24 V) < 30 mA
Cut-Off Frequency 1 kHz
Response Time 500 µs
Temperature Drift (Tu < 10 °C, Tu > 40 °C) 20 µm/K
Temperature Drift (10 °C < Tu < 40 °C) 10 µm/K
Temperature Range -10 … 60 °C
Error Output Voltage Drop < 2.5 V
PNP Error Output/Switching Current 200 mA
Analog Output 0…10 V
Short Circuit Protection yes
Reverse Polarity Protection yes
Overload Protection yes
Protection Class III

Mechanical Data
Housing Material Plastic
Full Encapsulation yes
Degree of Protection IP67
Connection M12 × 1; 8-pin

Output
Error Output yes
Analog Output yes

Downloads

Datasheet : Wenglor YP11MGV80 Laser Distance Sensor High Precision

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