For Wenglor Laser Distance Sensor Triangulation Series 40 to 160 mm and 40 to 240 mm and 50 to 350 mm Detection Range Inductive Distance Sensor Replacement
- Model
- Laser Distance Sensor Triangulation Series | CP24MHT80, CP25QXVT80, CP35MHT80 OCP162H0180, OCP242X0135, OCP352H0180
Item specifics
- Series:
- Laser Distance Sensor Triangulation Series
- Detection range:
- 40 to 160 mm, 40 to 240 mm, 50 to 350 mm
- Repeatability:
- 20 µm, 50 µm
- Sensing beam:
- Laser (red) 655nm, 660nm
- Output:
- PNP/Analog
- Material
- Plastic, ABS, PC
- Connector:
- M12
Review
Description
For Wenglor Laser Distance Sensor Triangulation Series 30 to 80 mm and 50 to 100 mm and 60 to 100 mm Detection Range Laser Distance Sensor Replacement Parameter
Brand | From network | DADISICK |
|
Models | CP24MHT80 |
GFL-G120NM | |
OCP162H0180 | |||
CP25QXVT80 | GFL-G250PM | ||
OCP242X0135 | |||
CP35MHT80 | GFL-G250NM | ||
OCP352H0180 | |||
Technical parameters | Detection range | 40 to 160 mm, 40 to 240 mm, 50 to 350 mm | 120mm, 250mm |
Repeatability | 20 µm, 50 µm | 30μm (In fast mode 45μm) 75μm (In fast mode 150μm) | |
Sensing beam | Laser (red) 655nm, 660nm | Red semiconductor laser IEC/JIS: class2, FDA: classII | |
Output | PNP/Analog | PNP/NPN/analog | |
Power source | 18 to 30 V DC | DC12~24V (+10%/—5%) | |
Material | Plastic, PBT, ABS, PC | Shell: aluminum alloy lens: PMMA | |
Connector | M12 | φ5 6-core 2-meter long cable (PVC) AWG24 | |
Enclosure rating | IP67 | IP64 | |
Ambient operating temperature | -25 to 50 °C, -25 to 60 °C | -10C to +45℃ | |
We are able to reproduce the specific connection configuration of each brand with high level of accuracy. | |||
Product model display instructions
The brands and specifications shown on this page are for product selection only. Our safety light curtain is a safety part made by DADISICK, not official brand Wenglor's products. DAIDSICK offer replacement for official brand products. We are not the owner of the brands. If you need to buy official brand products, please contact the brand official representative.
Product recommendations
FAQ
1. What are the installation requirements for laser displacement sensors?
Laser displacement sensors should be installed in a stable, vibration-free location, ensuring the laser beam is unobstructed. The installation position and angle should be adjusted according to specific measurement needs, following the manufacturer's installation guidelines.
2. Do laser displacement sensors get affected by ambient light during measurements?
Laser displacement sensors can be affected by strong ambient light. However, modern sensors usually have excellent anti-interference capabilities, using filtering and signal processing techniques to effectively reduce the impact of ambient light on measurement results.
3. Can laser displacement sensors measure moving objects?
Yes, laser displacement sensors can measure moving objects and provide high-frequency real-time data, making them suitable for monitoring and controlling high-speed moving objects.
4. How are laser displacement sensors calibrated?
Laser displacement sensors typically require regular calibration to maintain measurement accuracy. Calibration methods include using standard measurement tools or calibration plates for comparative measurements, following the manufacturer's calibration procedures.
5. What are the advantages of laser displacement sensors compared to ultrasonic sensors?
Laser displacement sensors generally offer higher measurement accuracy and resolution, making them suitable for applications requiring high precision. They are less susceptible to environmental noise and perform better in terms of measurement speed and response time.
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