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Home Page    3D Snapshot Sensor

3D Snapshot Sensor

Product Overview

JSL-NANO is a compact binocular structured light sensor for industrial guidance and positioning in confined spaces. Combining binocular vision and structured light projection, it captures 3D data of target objects un¬der 2 seconds, providing precise positioning and automation guidance.

 

Provides stable and reliable 3D measurement capability

Binocular Structured Light Technology

 

Product selection

  • JSL-NANO
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    Model JSL-NANO
    Measuring range ±150 mm
    Reference distance 450 mm
    Field of view at reference distance 330 mm×260 mm
    Field of view at 300 mm (near) 220 mm×170 mm
    Field of view at 600 mm (far) 450 mm×350 mm
    Z-axis repeatability (at reference distance) 0.1 mm
    Linearity 0.1% of F.S.
    Typical acquisition time 0.6 s-1.1 s
    Light source Blue semiconductor laser(445 nm)
    Laser class

     CLASS 3R
    Communication interface 1000BASE-T
    Protection class

    IP67
    Voltage Range 11-30 VDC
    Operating temperature 0 - 45° C

     

     

     

    *Notes:

     

    1. The measurement target is a standard diffuse reflective object.

     

    2. Use height/position tools to measure within the initial setup area.

     

    3. Values are obtained after smoothing and averaging.

     

    4. Data are averaged at the reference distance.

Application Scenarios

Applicable to microelectronics, precision machinery, and medical components for micron-level positioning and assembly accuracy.

Precision Manufacturing

Achieves a repeatability of 0.1 mm at the reference distance

High Repeatability

Compact form factor ideal for space-constrained environments

Outstanding Linearity

 

Ideal for small robotic vision positioning systems and measurement or guidance in confined spaces, breaking through environmental limitations

Intelligent and Special Scenarios

Delivers 0.1% of F.S. accuracy

Miniaturized Design

 

±150 mm measuringrange to meet diverse application needs

Wide Measuring Range

 

Empowers research institutions in 3D measurement and positioning studies, providing high-precision data for scientific research and innovation

Research Support

Typical acquisition time of 0.6–1.1 s ensuring real-time performance

Fast Response

 

Technical Advantage