High-Precision Laser Displacement Sensor (Non-Contact Type)

Product features:

Equipped with an imported laser emission module, this sensor delivers ultra-high precision with ±0.001mm accuracy and 0.01μm resolution, meeting the strict requirements of micro-displacement measurement in precision manufacturing. Its non-contact measurement principle eliminates workpiece wear and contamination, making it suitable for fragile or high-value components like smartphone screens and camera modules. The 10kHz high measurement frequency ensures real-time capture of fast-moving object displacement, critical for high-speed automation lines. With IP65 protection, it resists dust and splashing water, adapting to general workshop environments. Built-in temperature compensation algorithms maintain measurement stability even when ambient temperatures fluctuate, and the multiple output interfaces (Ethernet, RS485, analog) provide flexible integration options for different industrial control systems.

Product specifications:

The high-precision laser displacement sensor features a measurement range of 0-500mm, with optional ranges of 0-100mm and 0-200mm for specific small-distance applications. It achieves an accuracy of ±0.001mm and a resolution of 0.01μm, ensuring sub-micron level measurement precision. The measurement frequency reaches up to 10kHz, enabling real-time monitoring of fast-moving workpieces in high-speed production lines. Powered by 12-24V DC, it operates within a temperature range of -10°C to +60°C. The sensor uses a 635nm visible red laser for easy alignment, and its output interfaces include Ethernet, RS485, and 0-5V analog signals for seamless integration with factory management systems. Its housing is made of high-strength engineering plastic with a metal mounting bracket, weighing 0.8kg and measuring 120×60×40mm for easy installation in limited spaces.

Product application:

This laser displacement sensor plays a key role in various precision manufacturing scenarios. In 3C electronics production, it detects the flatness of smartphone screens, positions camera modules during assembly, and measures the gap between phone frames. In automotive manufacturing, it inspects the precision of gear teeth, weld seam alignment of car bodies, and component dimensions of engine parts. It is also used in precision machinery for linear guide rail straightness testing, semiconductor packaging for chip positioning, and hardware mold for size verification. Additionally, it supports laboratory material deformation testing and robot arm position calibration. All these applications require non-contact, high-precision displacement measurement, and this sensor provides reliable data to ensure product quality consistency and production process stability.