PD-10M/8NM Series Optical distance sensor with infrared radiation Replacement
- Model
- PD-10M/8NM Series | PD-10M, PD-10M, PD-8NM1
Item specifics
- Series:
- PD-10M/8NM Series
- Detection range:
- 0.2 - 10m, 0.2 - 8m
- Repeatability:
- ±100mm
- Sensing beam:
- infrared
- Output:
- 0 to 10V, NPN open-collector
- Material
- Polycarbonate
- Connector:
- -
Review
Description
PD-10M/8NM Series Optical distance sensor with infrared radiation Replacement Parameter
Brand | From network | DADISICK |
|
Models | PD-10M |
DB-Y10 | |
PD-10M2 | DB-Y10 | ||
PD-8NM1 | DB-Y10 | ||
Technical parameters | Detection range | 0.2 - 10m, 0.2 - 8m | 0.2-10m |
Repeatability | ±100mm | 1mm | |
Sensing beam | infrared | Class II, 660±15nm, ≤1mW | |
Output | 0 to 10V, NPN open-collector | Digital quantity+switch quantity+analog quantity | |
Power source | 24VDC | DC15~30V | |
Material | Polycarbonate | Die-cast zinc alloy | |
Connector | - | M12 | |
Enclosure rating | - | IP67 | |
Ambient operating temperature | -20 to 55 °C | -10°C to 50°C | |
We are able to reproduce the specific connection configuration of each brand with high level of accuracy. |
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FAQ
Q:Which industries use laser displacement sensors, and what are the benefits of it?
Laser displacement sensors are used in various industries such as manufacturing, construction engineering, and healthcare. They are used to measure the position, shape, size, and motion of objects. These sensors can provide high-precision measurements down to the nanometer level, making them extremely valuable in industries that require precise measurements.
There are several benefits of installing laser displacement sensors. Firstly, they can improve production efficiency by allowing real-time monitoring of machine or equipment operation and enabling adjustments and optimizations. Secondly, they contribute to product quality improvement by providing real-time detection of dimensions and shapes, ensuring adherence to required specifications and avoiding production defects caused by errors. Lastly, they enhance workplace safety by enabling remote monitoring of machine or equipment status, preventing operators from entering hazardous areas.
In addition, laser displacement can also be used for non-contact measurements, avoiding errors and wear that may occur due to object contact. This is particularly useful in industries that require measurements of sensitive components, such as aerospace, electronics, and semiconductor industries. Furthermore, laser displacement enables automated measurements without the need for manual intervention, reducing the cost and time associated with manual operations. In conclusion, installing laser displacement not only improves production efficiency and product quality but also enhances workplace safety and reduces costs. Therefore, it has widespread applications in many industries.
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